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36.716-02-01
|
Evolved Universal Terrestrial Radio Access (E-UTRA); LTE Advanced inter-band Carrier Aggregation (CA) Rel-16 for 2 bands Down Link (DL) / 1 band Up Link (UL)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/36_series/36.716-02-01/36716-02-01-g00.zip
|
The present document is a technical report for 2B DL/1B UL Inter-band Carrier Aggregation under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address 2B DL/1B UL Inter-band Carrier Aggregation requirements for the Rel-16 band combinations in Table 1-1.
Table 1-1: Release 16 2BDL/1BUL inter-band carrier aggregation combinations
CA combination
REL-independent from
7A-7A-46E_BCS0
REL-15
41A-42A-42A_BCS0
REL-11
41C-42A-42A_BCS0
REL-11
41A-42A-42C_BCS0
REL-11
41A-42C-42C_BCS0
REL-12
41C-42A-42C_BCS0
REL-12
41C-42C-42C_BCS0
REL-15
41A-42A-42C_UL_42C_BCS0
REL-12
41A-42C-42C_UL_42C_BCS0
REL-12
41C-42A-42C_UL_42C_BCS0
REL-12
41C-42C-42C_UL_42C_BCS0
REL-15
7A-7A-28A_BSC0
Rel-11
3C_28A_UL_3C_BCS0
Rel-11
18A-42C_BCS0
REL-12
18A-42A_BCS0
REL-12
3A-42A-42C_UL_42C_BCS0
REL-12
3A-42C-42C_UL_42C_BCS0
REL-12
46C-48C_UL_48C_BCS0
Rel-13
46A-48C_UL_48C_BCS0
Rel-13
46A-48D_UL_48C_BCS0
REL-13
46C-48D_UL_48C_BCS0
REL-13
46A-48E_UL_48C_BCS0
REL-13
46C-48E_UL_48C_BCS0
REL-15
7A-7A-29A_BCS0
REL-11
7C-29A_BCS0
REL-11
7A-29A_BCS0
REL-11
28A-42A-42A_BCS0
REL-12
28A-42A-42C_BCS0
REL-12
28A-42C-42C_BCS0
REL-12
28A-42A-42C_UL_42C_BCS0
REL-12
28A-42C-42C_UL_42C_BCS0
REL-12
5B-46E_BCS0
Rel-15
5B-46D_BCS0
Rel-13
5B-46C_BCS0
Rel-13
5B-46A_BCS0
Rel-13
46E-66A-66A_BCS0
Rel-15
2A-2A-5B_BCS0
Rel-11
2A-5B_BCS0
Rel-11
3A-3A-7C_BCS0
Rel-12
3A-3A-7C_UL_7C_BCS0
Rel-12
25A-25A-41E_BCS0
REL-15
25A-41F_BCS0
REL-15
25A-25A-41F_BCS0
REL-12
7C-46E_BCS0
REL-15
1A-1A-3C_UL_3C_BCS0
Rel-12
1A-1A-7C_UL_7C_BCS0
Rel-12
25A-41E_BCS0
REL-13
28A-66A_BCS0
REL-11
3A-3A-5A_BCS0
REL-12
3A-3A-46C_BCS0
REL-12
7A-13A_BCS0
REL-11
7C-13A_BCS0
REL-11
7A-7A-13A_BCS0
REL-12
7A-7A-20A_BCS0
REL-12
2A-66A_BCS0
REL-11
26A-66A_BCS0
REL-11
20A-41A_BSC0
Rel-12
20A-41C_BSC0
Rel-12
20A-41D_BCS0
Rel-12
1A-41C_41C
REL-12
18A-41A_BSC0
REL-12
18A-41C_UL_41C_BSC0
REL-12
46A-48B_UL48B_BSC0
REL-13
46C-48B_UL48B_BSC0
REL-13
46D-48B_UL48B_BSC0
REL-13
46E-48B_UL48B_BSC0
REL-15
This TR contains a band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
36.716-02-02
|
Evolved Universal Terrestrial Radio Access (E-UTRA); LTE Advanced inter-band Carrier Aggregation (CA) Rel-16 for 2 bands Down Link (DL) / 2 band Up Link (UL)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/36_series/36.716-02-02/36716-02-02-g00.zip
|
The present document is a technical report on LTE inter-band CA for 2 bands DL with 2 bands UL under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address 2 bands DL/2 band UL Inter-band Carrier Aggregation requirements for the Rel-16 band combinations in Table 1-1.
Table 1-1: Release 16 2 bands DL/2 bands UL inter-band carrier aggregation combinations
CA combination
REL independent from
CA_3A-11A
Rel-11
CA_26A-48C
CA_26A-48A-48A
Rel-14
CA_25A-41A
CA_25A-41C
CA_25A-41D
CA_25A-41E
CA_25A-41F
Rel-12
CA_25A-25A-41A
CA_25A-25A-41C
CA_25A-25A-41D
CA_25A-25A-41E
CA_25A-25A-41F
Rel-12
CA_25A-26A
CA_25A-25A-26A
Rel-12
CA_2A-48A
CA_2A-48A-48A
CA_2A-48C
CA_2A-48D
CA_2A-48A-48C
CA_2A-48E
CA_2A-48A-48D
CA_2A-48A-48E
Rel-11
CA_2A-14A
Rel-12
CA_4A-28A
Rel-11
CA_13A-66A
CA_13A-66A-66A
CA_13A-66B
CA_13A-66C
Rel-11
CA_14A-30A
Rel-12
CA_14A-66A
Rel-12
CA_1A-7A-7A
Rel-11
CA_2A-5A
Rel-11
CA_4A-5A
Rel-11
CA_2A-2A-13A
Rel-11
CA_1A-41C
Rel-11
CA_18A-41A
Rel-11
CA_18A-41C
Rel-11
This TR contains a band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
36.716-03-01
|
Evolved Universal Terrestrial Radio Access (E-UTRA); LTE Advanced inter-band Carrier Aggregation (CA) Rel-16 for 3 bands Down Link (DL) / 1 band Up Link (UL)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/36_series/36.716-03-01/36716-03-01-g00.zip
|
The present document is a technical report on inter-band CA for 3 bands DL with 1 band UL under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address 3 bands DL/1 band UL Inter-band Carrier Aggregation requirements for the Rel-16 band combinations in Table 1-1.
Table 1-1: Release 16 3 bands DL/1 band UL inter-band carrier aggregation combinations
CA combination
REL independent from
3A-41A-42A-42A_BCS0
REL-12
3A-41A-42A-42C_BCS0
REL-12
3A-41A-42C-42C_BCS0
REL-15
3A-41A-42A-42C_ UL_42C_BCS0
REL-12
3A-7A-46E_BSC0
Rel-15
3A-32A-46E_BSC0
Rel-15
3A-32A-46D_BSC0
Rel-13
3A-32A-46C_BSC0
Rel-13
3A-32A-46A_BSC0
Rel-13
7A-32A-46E_BSC0
Rel-15
CA_7A-32A-46D_BSC0
Rel-13
CA_7A-32A-46C_BSC0
Rel-13
CA_7A-32A-46A_BSC0
Rel-13
2A-7A-7A-46A_BCS0
REL-13
2A-7A-46C_BCS0
REL-13
2A-7A-7A-46C_BCS0
REL-13
2A-7A-46D_BCS0
REL-13
2A-7A-7A-46D_BCS0
REL-13
2A-7A-46E_BCS0
REL-13
2A-7A-7A-46E_BCS0
REL-13
7A-28A-40A_BCS0
REL-12
7A-28A-40C_BCS0
REL-12
1A-28A-40A_BCS0
REL-12
1A-28A-40C_BCS0
REL-12
1A-3A-46A_BCS0
REL-12
1A-3A-46C_BCS0
REL-12
3A-7A-46C_BCS0
REL-12
3C-7A-28A_2CC_UL_3C
Rel-11
1A-3C-28A_2CC_UL_3C
Rel-11
3C-7C-28A_2CC_UL_3C
Rel-12
3C-7C-28A_2CC_UL_7C
Rel-12
1A-7A-7A-28A
Rel-11
3A-7A-7A-28A
Rel-11
3A-5A-28A
Rel-11
1A-3A-41C_BCS0
REL-12
1A-18A-42C_BCS0
REL-12
3A-18A-42C_BCS0
REL-12
1A-18A-42A_BCS0
REL-12
3A-18A-42A_BCS0
REL-12
This TR contains a band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
36.716-03-02
|
Evolved Universal Terrestrial Radio Access (E-UTRA); LTE Advanced inter-band Carrier Aggregation (CA) Rel-16 for x bands Down Link (DL) (x = 3, 4, 5) / 2 band Up Link (UL)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/36_series/36.716-03-02/36716-03-02-g00.zip
|
The present document is a technical report for LTE inter-band Carrier Aggregation for x bands (x=3, 4, 5) DL with 2 bands UL under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address x bands (x= 3, 4, 5) DL and 2 bands UL Carrier Aggregation requirements.
This TR covers the relevant background information and studies core and performance requirements for the Rel-16 band combinations in Table 1-1, 1-2 and 1-3.
Table 1-1: 3 bands DL/2 bands UL CA configurations part of the WI
E-UTRA CA configuration / Bandwidth combination set
E-UTRA CA Configuration
Uplink CA configurations
E-UTRA Bands
1.4
MHz
3
MHz
5
MHz
10
MHz
15
MHz
20
MHz
Maximum aggregated bandwidth
[MHz]
Bandwidth combination set
CA_3A-11A-18A
CA_3A-11A
3
Yes
Yes
Yes
Yes
45
0
11
Yes
Yes
18
Yes
Yes
Yes
CA_3A-11A-26A
CA_3A-11A
3
Yes
Yes
Yes
Yes
45
0
11
Yes
Yes
26
Yes
Yes
Yes
CA_1A-3A-42C
CA_1A-42C
CA_3A-42C
1
Yes
Yes
Yes
Yes
80
0
3
Yes
Yes
Yes
Yes
42
See CA_42C Bandwidth combination set 0 in Table 5.6A.1-1 in TS36.101
CA_2A-4A-13A
CA_2A-13A
CA_4A-13A
2
Yes
Yes
Yes
Yes
50
0
4
Yes
Yes
Yes
Yes
13
Yes
Yes
CA_2A-2A-4A-5A
CA_2A-5A
CA_4A-5A
2
See CA_2A-2A Bandwidth combination set 0 in Table 5.6A.1-3
70
0
4
Yes
Yes
Yes
Yes
5
Yes
Yes
CA_2A-2A-5A-66A-66A
CA_2A-5A
2
See CA_2A-2A Bandwidth Combination Set 0 in Table 5.6A.1-3
90
0
5
Yes
Yes
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-5B-66A-66A
CA_2A-5A
CA_5A-66A
2
Yes
Yes
Yes
Yes
80
0
5
See CA_5B Bandwidth Combination Set 0 in Table 5.6A.1-1
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-5A-46D
CA_2A-5A
2
Yes
Yes
Yes
Yes
90
0
5
Yes
Yes
46
See CA_46D Bandwidth Combination Set 0 in Table 5.6A.1-1
CA_5A-46D-66A
CA_5A_46A
CA_5A_66A
5
Yes
Yes
90
0
46
See CA_46D Bandwidth Combination Set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
CA_2A-13A-66A-66B
CA_2A-13A
CA_13A-66A
2
Yes
Yes
Yes
Yes
70
0
13
Yes
Yes
66
Yes
Yes
Yes
Yes
66
See CA_66B Bandwidth combination set 0 in Table 5.6A.1-1
CA_2A-13A-48A-48C
CA_2A-13A
2
Yes
Yes
Yes
Yes
90
0
13
Yes
Yes
48
Yes
Yes
Yes
Yes
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
CA_13A-46D-66A
CA_13A-66A
13
Yes
Yes
90
0
46
See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
CA_2A-13A-46D
CA_2A-13A
2
Yes
Yes
Yes
Yes
90
0
13
Yes
Yes
46
See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1
CA_1A-3A-38A
CA_1A-3A
1
Yes
Yes
Yes
Yes
60
0
3
Yes
Yes
Yes
Yes
38
Yes
Yes
Yes
Yes
3
Yes
Yes
Yes
Yes
CA_2A-12A-66A
CA_2A-12A
CA_2A-66A
CA_12A-66A
2
Yes
Yes
Yes
Yes
50
0
12
Yes
Yes
66
Yes
Yes
Yes
Yes
CA_1A-3A-42D
CA_1A-3A,
CA_1A-42A
CA_3A-42A,
CA_1A-42C
CA_3A-42C
1
Yes
Yes
Yes
Yes
100
0
3
Yes
Yes
Yes
Yes
42
See CA_42D Bandwidth combination set 0 in Table 5.6A.1-1
CA_2A-5A-66A
CA_5A-66A,
CA_2A-5A
2
Yes
Yes
Yes
Yes
50
0
5
Yes
Yes
66
Yes
Yes
Yes
Yes
CA_2A-13A-66A
CA_2A-13A,
CA_13A-66A
2
Yes
Yes
Yes
Yes
50
0
13
Yes
Yes
66
Yes
Yes
Yes
Yes
CA_2A-48A-66A
CA_48A-66A
2
Yes
Yes
Yes
Yes
60
0
48
Yes
Yes
Yes
Yes
66
Yes
Yes
Yes
Yes
CA_2A-2A-5A-66A
CA_2A-5A,
CA_5A-66A
2
See CA_2A-2A Bandwidth Combination Set 0 in Table 5.6A.1-3 of [1]
70
0
5
Yes
Yes
66
Yes
Yes
Yes
Yes
CA_2A-5A-66A-66A
CA_2A-5A,
CA_5A-66A
2
Yes
Yes
Yes
Yes
70
0
5
Yes
Yes
66
See CA_66A-66A Bandwidth combination set 0 in Table 5.6A.1-3 of [1]
CA_2A-5A-66B
CA_2A-5A,
CA_5A-66A
2
Yes
Yes
Yes
Yes
50
0
5
Yes
Yes
66
See CA_66B Bandwidth combination set 0 in Table 5.6A.1-1 of [1]
CA_2A-5A-66C
CA_2A-5A,
CA_5A-66A
2
Yes
Yes
Yes
Yes
70
0
5
Yes
Yes
66
See CA_66C Bandwidth combination set 0 in Table 5.6A.1-1 of [1]
CA_2A-5B-66A
CA_2A-5A,
CA_5A-66A
2
Yes
Yes
Yes
Yes
60
0
5
Yes
Yes
66
Yes
Yes
Yes
Yes
CA_2A-2A-13A-66A
CA_2A-13A,
CA_13A-66A
2
See CA_2A-2A Bandwidth Combination Set 0 in Table 5.6A.1-3 of [1]
70
0
13
Yes
Yes
66
Yes
Yes
Yes
Yes
CA_2A-13A-66A-66A
CA_2A-13A,
CA_13A-66A
2
Yes
Yes
Yes
Yes
70
0
13
Yes
Yes
66
See CA_66A-66A Bandwidth combination set 0 in Table 5.6A.1-3 of [1]
CA_2A-13A-66B
CA_2A-13A,
CA_13A-66A
2
Yes
Yes
Yes
Yes
90
0
13
Yes
Yes
66
See CA_66B Bandwidth combination set 0 in Table 5.6A.1-1 of [1]
CA_2A-13A-66C
CA_2A-13A,
CA_13A-66A
2
Yes
Yes
Yes
Yes
90
0
13
Yes
Yes
66
See CA_66C Bandwidth combination set 0 in Table 5.6A.1-1 of [1]
CA_2A-2A-5A-66A-66A
CA_2A-5A,
CA_5A-66A
2
See CA_2A-2A Bandwidth Combination Set 0 in Table 5.6A.1-3 of [1]
90
0
5
Yes
Yes
66
See CA_66A-66A Bandwidth combination set 0 in Table 5.6A.1-3 of [1]
CA_2A-2A-5A-66B
CA_2A-5A,
CA_5A-66A
2
See CA_2A-2A Bandwidth Combination Set 0 in Table 5.6A.1-3 of [1]
90
0
5
Yes
Yes
66
See CA_66B Bandwidth combination set 0 in Table 5.6A.1-1 of [1]
CA_2A-2A-5A-66C
CA_2A-5A,
CA_5A-66A
2
See CA_2A-2A Bandwidth Combination Set 0 in Table 5.6A.1-3 of [1]
110
0
5
Yes
Yes
66
See CA_66C Bandwidth combination set 0 in Table 5.6A.1-1 of [1]
CA_2A-5B-66B
CA_2A-5A,
CA_5A-66A
2
Yes
Yes
Yes
Yes
80
0
5
See CA_5B Bandwidth Combination Set 0 in Table 5.6A.1-1 of [1]
66
See CA_66B Bandwidth combination set 0 in Table 5.6A.1-1 of [1]
CA_2A-5B-66C
CA_2A-5A,
CA_5A-66A
2
Yes
Yes
Yes
Yes
100
0
5
See CA_5B Bandwidth Combination Set 0 in Table 5.6A.1-1 of [1]
66
See CA_66C Bandwidth combination set 0 in Table 5.6A.1-1 of [1]
CA_2A-46D-48A
CA_2A-48A
2
Yes
Yes
Yes
Yes
100
0
46
See the CA_46D Bandwidth combination set 0 in Table 5.6A.1-1 of [1]
48
Yes
Yes
Yes
Yes
CA_2A-46E-48A
CA_2A-48A
2
Yes
Yes
Yes
Yes
120
0
46
See the CA_46E Bandwidth combination set 0 in Table 5.6A.1-1 of [1]
48
Yes
Yes
Yes
Yes
CA_3A-8A-38A
CA_3A-8A
1
Yes
Yes
Yes
Yes
50
0
3
Yes
Yes
38
Yes
Yes
Yes
Yes
CA_1A-1A-3C-5A
CA_1A-3A,
CA_1A-5A
CA_3A-5A
1
See CA_1A-1A Bandwidth Combination Set 0 in Table 5.6A.1-3
90
0
3
See CA_3C Bandwidth combination set 0 in table 5.6A.1-1
5
Yes
Yes
CA_1A-1A-3C-28A
CA_1A-3A,
CA_1A-28A
CA_3A-28A
1
See CA_1A-1A Bandwidth Combination Set 0 in Table 5.6A.1-3
100
0
3
See CA_3C Bandwidth combination set 0 in table 5.6A.1-1
28
Yes
Yes
Yes
Yes
CA_1A-3A-3A-7A
CA_1A-3A,
CA_1A-7A,
CA_3A-7A
1
Yes
Yes
Yes
Yes
80
0
3
See the CA_3A-3A Bandwidth combination set 0 in the Table 5.6A.1-3
7
Yes
Yes
Yes
Yes
CA_1A-3A-3A-7A-7A
CA_1A-3A,
CA_1A-7A,
CA_3A-7A
1
Yes
Yes
Yes
Yes
100
0
3
See the CA_3A-3A Bandwidth combination set 0 in Table below
7
See the CA_7A-7A Bandwidth combination set 1 in Table below
CA_2A-14A-30A
CA_2A-14A
CA_14A-30A
2
Yes
Yes
Yes
Yes
40
0
14
Yes
Yes
30
Yes
Yes
CA_2A-14A-66A
CA_2A-14A
CA_14A-66A
2
Yes
Yes
Yes
Yes
50
0
14
Yes
Yes
66
Yes
Yes
Yes
Yes
CA_14A-30A-66A
CA_14A-30A
CA_14A-66A
14
Yes
Yes
40
0
30
Yes
Yes
66
Yes
Yes
Yes
CA_2A-2A-14A-66A
CA_2A-14A
CA_14A-66A
2
See CA_2A-2A Bandwidth Combination Set 0 in Table 5.6A.1-3
70
0
14
Yes
Yes
66
Yes
Yes
Yes
Yes
CA_14A-30A-66A-66A
CA_14A-30A
CA_14A-66A
14
Yes
Yes
60
0
30
Yes
Yes
66
See CA_66A-66A Bandwidth combination set 0 in Table 5.6A.1-3
CA_2A-14A-66A-66A
CA_2A-14A
CA_14A-66A
2
Yes
Yes
Yes
Yes
70
0
14
Yes
Yes
66
See CA_6`6A-66A Bandwidth combination set 0 in Table 5.6A.1-3
CA_2A-2A-14A-66A-66A
CA_2A-14A
CA_14A-66A
2
See CA_2A-2A Bandwidth Combination Set 0 in Table 5.6A.1-3
90
0
14
Yes
Yes
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-14A-66A-66A-66A
CA_2A-14A
CA_14A-66A
2
Yes
Yes
Yes
Yes
90
0
14
Yes
Yes
66
See CA_66A-66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-4
CA_2A-13A-46A-46D
CA_2A-13A
2
Yes
Yes
Yes
Yes
Yes
Yes
110
0
13
Yes
Yes
46
See CA_46A-46D Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-13A-46D
CA_2A-13A
2
Yes
Yes
Yes
Yes
Yes
Yes
90
0
13
Yes
Yes
46
See CA_46D Bandwidth Combination Set 0 in Table 5.6A.1-1
CA_2A-13A-46A-46C
CA_2A-13A
2
Yes
Yes
Yes
Yes
Yes
Yes
90
0
13
Yes
Yes
46
See CA_46A-46C Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-13A-46C
CA_2A-13A
2
Yes
Yes
Yes
Yes
Yes
Yes
70
0
13
Yes
Yes
46
See CA_46C Bandwidth Combination Set 0 in Table 5.6A.1-1
CA_2A-13A-46A-46A
CA_2A-13A
2
Yes
Yes
Yes
Yes
Yes
Yes
70
0
13
Yes
Yes
46
See CA_46A-46A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-13A-46A
CA_2A-13A
2
Yes
Yes
Yes
Yes
Yes
Yes
50
0
13
Yes
Yes
46
Yes
Yes
CA_2A-13A-46E
CA_2A-13A
2
Yes
Yes
Yes
Yes
Yes
Yes
110
0
13
Yes
Yes
46
See CA_46E Bandwidth Combination Set 0 in Table 5.6A.1-1
CA_2A-46E-66A
CA_2A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
120
0
46
See the CA_46E Bandwidth combination set 0 in the Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-46D-66A
CA_2A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
100
0
46
See the CA_46D Bandwidth combination set 0 in the Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-46C-66A
CA_2A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
80
0
46
See the CA_46C Bandwidth combination set 0 in the Table 5.6A.1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-46A-66A
CA_2A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
60
0
46
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-48A-66A
CA_2A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
60
0
46
Yes
Yes
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_13A-48A-66A
CA_13A-48A
CA_13A-66A
CA_48A-66A
13
Yes
Yes
50
0
48
Yes
Yes
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-46D-48C
CA_2A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
120
0
46
See CA_46D Bandwidth Combination Set 0 in Table 5.6A.1-1
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
CA_46D-48C-66A
CA_48A-66A
46
See CA_46D Bandwidth Combination Set 0 in Table 5.6A.1-1
120
0
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-46C-48C
CA_2A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
100
0
46
See CA_46C Bandwidth Combination Set 0 in Table 5.6A.1-1
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
CA_2A-46D-48A
CA_2A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
100
0
46
See CA_46D Bandwidth Combination Set 0 in Table 5.6A.1-1
48
Yes
Yes
Yes
Yes
CA_46C-48C-66A
CA_48A-66A
46
See CA_46C Bandwidth Combination Set 0 in Table 5.6A.1-1
100
0
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_46A-48C-66A
CA_48A-66A
46
Yes
Yes
80
0
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_46D-48A-66A
CA_48A-66A
46
See CA_46D Bandwidth Combination Set 0 in Table 5.6A.1-1
100
0
48
Yes
Yes
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-48C-66A
CA_2A-48A
CA_48A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
80
0
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-46A-48C
CA_2A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
80
0
46
Yes
Yes
Yes
Yes
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
CA_2A-46C-48A
CA_2A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
80
0
46
See CA_46C Bandwidth Combination Set 0 in Table 5.6A.1-1
48
Yes
Yes
Yes
Yes
CA_2A-46A-48A
CA_2A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
60
0
46
Yes
Yes
48
Yes
Yes
Yes
Yes
CA_46C-48A-66A
CA_48A-66A
46
See CA_46C Bandwidth Combination Set 0 in Table 5.6A.1-1
80
0
48
Yes
Yes
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_46A-48A-66A
CA_48A-66A
46
Yes
Yes
60
0
48
Yes
Yes
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_1A-7A-20A
CA_1A-7A
CA_1A-20A
CA_7A-20A
1
Yes
Yes
Yes
Yes
60
0
7
Yes
Yes
Yes
20
Yes
Yes
Yes
Yes
CA_1A-3A-3A-8A
CA_1A-3A
CA_1A-8A
CA_3A-8A
1
Yes
Yes
Yes
Yes
70
0
3
See CA_3A-3A Bandwidth Combination Set 0 in Table 5.6A.1-3
8
Yes
Yes
CA_1A-7A-8A
CA_7A-8A
1
Yes
Yes
Yes
Yes
50
0
7
Yes
Yes
Yes
8
Yes
Yes
CA_1A-7A-7A-8A
CA_1A-7A
CA_1A-8A
CA_7A-8A
1
Yes
Yes
Yes
Yes
70
0
7
See CA_7A-7A Bandwidth combination set 1 in Table 5.6A.1-3
8
Yes
Yes
CA_2A-5A-48A
CA_2A-48A
CA_5A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
50
0
5
Yes
Yes
48
Yes
Yes
Yes
Yes
CA_2A-5A-48C
CA_2A-48A
CA_5A-48A
CA_2A-5A
2
Yes
Yes
Yes
Yes
Yes
Yes
70
0
5
Yes
Yes
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
CA_2A-5A-48D
CA_2A-5A
CA_5A-48A
CA_2A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
90
0
5
Yes
Yes
48
See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1
CA_2A-48A-66A
CA_2A-48A
CA_2A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
60
0
48
Yes
Yes
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-48A-66A-66A
CA_48A-66A
CA_2A-48A
CA_2A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
80
0
48
Yes
Yes
Yes
Yes
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-48D-66A
CA_48A-66A
CA_2A-66A
CA_2A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
100
0
48
See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-48C-66A-66A
CA_48A-66A
CA_2A-66A
CA_2A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
100
0
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-48D-66A-66A
CA_48A-66A
CA_2A-66A
CA_2A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
120
0
48
See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-48E-66A
CA_48A-66A
CA_2A-66A
CA_2A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
100
0
48
See CA_48E Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-48E-66A-66A
CA_48A-66A
CA_2A-66A
CA_2A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
120
0
48
See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-13A-66A
CA_2A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
50
0
13
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-13A-66A-66A
CA_13A-66A
CA_2A-13A
CA_2A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
70
0
13
Yes
Yes
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-13A-48A
CA_2A-48A
CA_13A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
50
0
13
Yes
Yes
48
Yes
Yes
Yes
Yes
CA_2A-13A-48C
CA_2A-48A
CA_13A-48A
CA_2A-13A
2
Yes
Yes
Yes
Yes
Yes
Yes
70
0
13
Yes
Yes
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
CA_2A-13A-48D
CA_2A-48A
CA_13A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
90
0
13
Yes
Yes
48
See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1
CA_5A-48A-66A
CA_48A-66A
CA_5A-66A
CA_5A-48A
5
Yes
Yes
50
0
48
Yes
Yes
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_5A-48A-66A-66A
CA_48A-66A
CA_5A-66A
CA_5A-48A
5
Yes
Yes
70
0
48
Yes
Yes
Yes
Yes
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_5A-48C-66A
CA_48A-66A
CA_5A-66A
CA_5A-48A
5
Yes
Yes
70
0
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_5A-48C-66A-66A
CA_48A-66A
CA_5A-66A
CA_5A-48A
5
Yes
Yes
90
0
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_5A-48D-66A
CA_48A-66A
CA_5A-48A
5
Yes
Yes
90
0
48
See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_5A-48D-66A-66A
CA_48A-66A
CA_5A-66A
CA_5A-48A
5
Yes
Yes
110
0
48
See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_13A-48A-66A
CA_48A-66A
CA_13A-66A
CA_13A-48A
13
Yes
Yes
50
0
48
Yes
Yes
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_13A-48A-66A-66A
CA_48A-66A
CA_13A-66A
CA_13A-48A
13
Yes
Yes
Yes
Yes
Yes
Yes
70
0
48
Yes
Yes
Yes
Yes
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_13A-48C-66A
CA_48A-66A
CA_13A-66A
CA_13A-48A
13
Yes
Yes
70
0
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_13A-48C-66A-66A
CA_48A-66A
CA_13A-66A
CA_13A-48A
13
Yes
Yes
120
0
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_13A-48D-66A
CA_48A-66A
CA_13A-48A
13
Yes
Yes
90
0
48
See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_13A-48D-66A-66A
CA_48A-66A
CA_13A-66A
CA_13A-48A
13
Yes
Yes
110
0
48
See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-5A-66A-66A
CA_2A-66A
CA_5A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
80
0
5
Yes
Yes
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_1A-18A-41A
CA_1A-18A
CA_1A-41A
CA_18A-41A
1
Yes
Yes
Yes
Yes
55
0
18
Yes
Yes
Yes
41
Yes
Yes
Yes
Yes
CA_1A-18A-41C
CA_1A-18A
CA_1A-41A
CA_1A-41C
CA_18A-41A
CA_18A-41C
1
Yes
Yes
Yes
Yes
75
0
18
Yes
Yes
Yes
41
See CA_41C Bandwidth combination set 0 in Table 5.6A.1-1 in TS36.101
Table 1-2: 4 bands DL/2 bands UL CA configurations part of the WI
E-UTRA CA configuration / Bandwidth combination set
E-UTRA CA Configuration
Uplink CA configurations (NOTE 4)
E-UTRA Bands
1.4
MHz
3
MHz
5
MHz
10
MHz
15
MHz
20
MHz
Maximum aggregated bandwidth
[MHz]
Bandwidth combination set
CA_2A-13A-48C-66A
CA_2A-13A
CA_13A-66A
2
Yes
Yes
Yes
Yes
90
0
13
Yes
Yes
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
CA_2A-13A-48A-48A-66A
CA_2A-13A
CA_13A-66A
2
Yes
Yes
Yes
Yes
90
0
13
Yes
Yes
48
See CA_48A-48A Bandwidth combination set 0 in Table 5.6A.1-3
66
Yes
Yes
Yes
Yes
CA_1A-3A-8A-38A
CA_1A-3A
CA_1A-8A
CA_3A-8A
1
Yes
Yes
Yes
Yes
70
0
3
Yes
Yes
Yes
Yes
8
Yes
Yes
38
Yes
Yes
Yes
Yes
CA_2A-46E-48A-66A
CA_2A-48A
CA_66A-48A
2
Yes
Yes
Yes
Yes
140
0
46
See CA_46E Bandwidth combination set 0 in
Table 5.6A.1-1 of 36.101
48
Yes
Yes
Yes
Yes
66
Yes
Yes
Yes
Yes
CA_1A-3A-41C-42C
CA_1A-3A,
CA_1A-42A,
CA_1A-42C,
CA_3A-42A,
CA_3A-42C
1
Yes
Yes
Yes
Yes
120
0
3
Yes
Yes
Yes
Yes
41
See CA_41C Bandwidth Combination Set 0 in Table 5.6A.1-1 of TS36.101
42
See CA_42C Bandwidth combination set 1 in Table 5.6A.1-1 of TS36.101
CA_1A-3A-41C-42A
CA_1A-3A,
CA_1A-42A,
CA_3A-42A
1
Yes
Yes
Yes
Yes
100
0
3
Yes
Yes
Yes
Yes
41
See CA_41C Bandwidth Combination Set 0 in Table 5.6A.1-1 of TS36.101
42
Yes
Yes
Yes
Yes
CA_1A-3A-41A-42C
CA_1A-3A,
CA_1A-42A,
CA_1A-42C,
CA_3A-42A,
CA_3A-42C
1
Yes
Yes
Yes
Yes
100
0
3
Yes
Yes
Yes
Yes
41
Yes
Yes
Yes
Yes
42
See CA_42C Bandwidth combination set 1 in Table 5.6A.1-1 of TS36.101
CA_1A-3A-41A-42A
CA_1A-3A,
CA_1A-42A,
CA_3A-42A
1
Yes
Yes
Yes
Yes
100
0
3
Yes
Yes
Yes
Yes
41
Yes
Yes
Yes
Yes
42
Yes
Yes
Yes
Yes
CA_2A-14A-30A-66A
CA_2A-14A
CA_14A-66A
2
Yes
Yes
Yes
Yes
60
0
14
Yes
Yes
30
Yes
Yes
66
Yes
Yes
Yes
Yes
CA_2A-2A-14A-30A-66A
CA_2A-14A
CA_14A-30A
CA_14A-66A
2
See CA_2A-2A Bandwidth Combination Set 0 in Table 5.6A.1-3
80
0
14
Yes
Yes
30
Yes
Yes
66
Yes
Yes
Yes
Yes
CA_2A-14A-30A-66A-66A
CA_2A-14A
CA_14A-30A
CA_14A-66A
2
Yes
Yes
Yes
Yes
80
0
14
Yes
Yes
30
Yes
Yes
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-13A-46E-66A
CA_2A-13A
2
Yes
Yes
Yes
Yes
Yes
Yes
130
0
13
Yes
Yes
46
See the CA_46E Bandwidth combination set 0 in the Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
CA_2A-13A-46D-66A
CA_2A-13A
2
Yes
Yes
Yes
Yes
Yes
Yes
110
0
13
Yes
Yes
46
See the CA_46D Bandwidth combination set 0 in the Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-13A-46C-66A
CA_2A-13A
2
Yes
Yes
Yes
Yes
Yes
Yes
90
0
13
Yes
Yes
46
See the CA_46C Bandwidth combination set 0 in the Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-13A-46A-66A
CA_2A-13A
2
Yes
Yes
Yes
Yes
Yes
Yes
70
0
13
Yes
Yes
46
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-46D-48C-66A
CA_2A-48A
CA_48A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
140
0
46
See CA_46D Bandwidth Combination Set 0 in Table 5.6A.1-1
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-46C-48C-66A
CA_2A-48A
CA_48A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
120
0
46
See CA_46C Bandwidth Combination Set 0 in Table 5.6A.1-1
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-46D-48A-66A
CA_2A-48A
CA_48A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
120
0
46
See CA_46D Bandwidth Combination Set 0 in Table 5.6A.1-1
48
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-46A-48C-66A
CA_2A-48A
CA_48A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
100
0
46
Yes
Yes
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-46C-48A-66A
CA_2A-48A
CA_48A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
100
0
46
See CA_46C Bandwidth Combination Set 0 in Table 5.6A.1-1
48
Yes
Yes
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
A_2A-46A-48A-66A
CA_2A-48A
CA_48A-66A
2
Yes
Yes
Yes
Yes
Yes
Yes
80
0
46
Yes
Yes
48
Yes
Yes
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_1A-3A-7A-20A
CA_1A-3A,
CA_1A-7A,
CA_1A-20A,
CA_3A-7A,
CA_3A-20A,
CA_7A-20A
1
Yes
Yes
Yes
Yes
80
0
3
Yes
Yes
Yes
Yes
7
Yes
Yes
Yes
20
Yes
Yes
Yes
Yes
CA_1A-3A-7A-8A
CA_1A-8A,
CA_7A-8A
1
Yes
Yes
Yes
Yes
70
0
3
Yes
Yes
Yes
Yes
7
Yes
Yes
Yes
8
Yes
Yes
CA_1A-3A-7A-8A
CA_1A-8A,
CA_7A-8A
1
Yes
Yes
Yes
Yes
70
1
3
Yes
Yes
Yes
Yes
7
Yes
Yes
Yes
Yes
8
Yes
Yes
CA_1A-3A-3A-7A-8A
CA_1A-3A,
CA_1A-7A,
CA_1A-8A,
CA_3A-7A,
CA_3A-8A,
CA_7A-8A
1
Yes
Yes
Yes
Yes
90
0
3
See the CA_3A-3A Bandwidth combination set 0 in Table 5.6A.1-3
7
Yes
Yes
Yes
Yes
8
Yes
Yes
CA_1A-3A-7A-7A-8A
CA_1A-3A,
CA_1A-7A,
CA_1A-8A,
CA_3A-7A,
CA_3A-8A,
CA_7A-8A
1
Yes
Yes
Yes
Yes
90
0
3
Yes
Yes
Yes
Yes
7
See the CA_7A-7A Bandwidth combination set 1 in Table 5.6A.1-3
8
Yes
Yes
CA_1A-3A-3A-7A-7A-8A
CA_1A-3A,
CA_1A-7A,
CA_1A-8A,
CA_3A-7A,
CA_3A-8A,
CA_7A-8A
1
Yes
Yes
Yes
Yes
110
0
3
See the CA_3A-3A Bandwidth combination set 0 in Table 5.6A.1-3
7
See the CA_7A-7A Bandwidth combination set 1 in Table 5.6A.1-3
8
Yes
Yes
CA_2A-5A-48A-66A
CA_2A-66A
CA_2A-48A
CA_48A-66A
CA_5A-66A
CA_5A-48A
CA_2A-5A
2
Yes
Yes
Yes
Yes
Yes
Yes
70
0
5
Yes
Yes
48
Yes
Yes
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-5A-48C-66A
CA_2A-66A
CA_2A-48A
CA_48A-66A
CA_5A-66A
CA_5A-48A
CA_2A-5A
2
Yes
Yes
Yes
Yes
Yes
Yes
90
0
5
Yes
Yes
48
Yes
Yes
Yes
Yes
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-5A-48A-66A-66A
CA_2A-66A
CA_2A-48A
CA_48A-66A
CA_5A-66A
CA_5A-48A
CA_2A-5A
2
Yes
Yes
Yes
Yes
Yes
Yes
90
0
5
Yes
Yes
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-5A-48C-66A-66A
CA_2A-66A
CA_2A-48A
CA_48A-66A
CA_5A-66A
CA_5A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
110
0
5
Yes
Yes
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-5A-48D-66A
CA_2A-66A
CA_2A-48A
CA_48A-66A
CA_5A-66A
CA_5A-48A
CA_2A-5A
2
Yes
Yes
Yes
Yes
Yes
Yes
110
0
5
Yes
Yes
48
See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-5A-48D-66A-66A
CA_2A-66A
CA_2A-48A
CA_48A-66A
CA_5A-66A
CA_5A-48A
CA_2A-5A
2
Yes
Yes
Yes
Yes
Yes
Yes
130
0
5
Yes
Yes
48
See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-13A-48C-66A
CA_2A-66A
CA_2A-48A
CA_48A-66A
CA_13A-66A
CA_13A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
90
0
13
Yes
Yes
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-13A-48C-66A-66A
CA_2A-66A
CA_2A-48A
CA_48A-66A
CA_13A-66A
CA_13A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
110
0
13
Yes
Yes
48
See CA_48C Bandwidth combination set 0 in Table 5.6A.1-1
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-13A-48D-66A
CA_2A-66A
CA_2A-48A
CA_48A-66A
CA_13A-66A
CA_13A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
110
0
13
Yes
Yes
48
See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-13A-48D-66A-66A
CA_2A-66A
CA_2A-48A
CA_48A-66A
CA_13A-66A
CA_13A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
130
0
13
Yes
Yes
48
See CA_48D Bandwidth combination set 0 in Table 5.6A.1-1
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
CA_2A-13A-48A-66A
CA_2A-66A
CA_2A-48A
CA_48A-66A
CA_13A-66A
CA_13A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
70
0
13
Yes
Yes
48
Yes
Yes
Yes
Yes
66
Yes
Yes
Yes
Yes
Yes
Yes
CA_2A-13A-48A-66A-66A
CA_2A-66A
CA_2A-48A
CA_48A-66A
CA_13A-66A
CA_13A-48A
2
Yes
Yes
Yes
Yes
Yes
Yes
90
0
13
Yes
Yes
48
Yes
Yes
Yes
Yes
66
See CA_66A-66A Bandwidth Combination Set 0 in Table 5.6A.1-3
Table 1-3: 5 bands DL/2 bands UL CA configurations part of the WI
E-UTRA CA configuration / Bandwidth combination set
E-UTRA CA Configuration
Uplink CA configurations
E-UTRA Bands
1.4
MHz
3
MHz
5
MHz
10
MHz
15
MHz
20
MHz
Maximum aggregated bandwidth
[MHz]
Bandwidth combination set
This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
36.716-04-01
|
Evolved Universal Terrestrial Radio Access (E-UTRA); LTE Advanced inter-band Carrier Aggregation (CA) Rel-16 for x bands Down Link (DL) (x = 4, 5) / 1 band Up Link (UL)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/36_series/36.716-04-01/36716-04-01-g00.zip
| |
36.762
|
410 – 430 MHz Evolved Universal Terrestrial Radio Access (E-UTRA) Frequency Division Duplex (FDD) Band(s) for LTE Public Protection and Disaster Relief (PPDR) and Professional Mobile Radio (PMR) / Public Access Mobile Radio (PAMR) in Europe
|
TR
|
16.1.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/36_series/36.762/36762-g10.zip
|
The present document is a technical report for the work item of 410 – 430 MHz E-UTRA FDD Band(s) for LTE PPDR and PMR/PAMR in Europe.
|
36.776
|
Evolved Universal Terrestrial Radio Access (E-UTRA); Study on LTE-based 5G terrestrial broadcast
|
TR
|
16.0.0
|
R1
|
https://www.3gpp.org/ftp/Specs/archive/36_series/36.776/36776-g00.zip
|
The present document captures the findings of the study item, "Study on LTE-based 5G terrestrial broadcast " [2]. The purpose of this TR is to identify the gaps between the LTE-based eMBMS and the 5G requirements for dedicated broadcast networks defined in 3GPP TR 38.913 [3] and to study the solutions for closing these gaps.
This document is a 'living' document, i.e. it is permanently updated and presented to TSG-RAN meetings.
|
36.791
|
Evolved Universal Terrestrial Radio Acces (E-UTRA) 2.4 GHz Time Division Duplex (TDD) Band for US
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/36_series/36.791/36791-g00.zip
|
The present document is a technical report for the work item of the E-UTRA 2.4 GHz TDD Band for US. The work item elements reflected in this document are (a) study of impact of operations from 2483.5 MHz to 2495 MHz on unlicensed Bluetooth and 802.11 operations in the ISM band, and (b) standardization of a new E-UTRA band from 2483.5 MHz to 2495 MHz (Band 53).
|
37.716-00-00
|
Band combinations for Stand-Alone (SA) NR Supplementary UpLink (SUL), Non-Stand-Alone (NSA) NR SUL, NSA NR SUL with UL sharing from the UE perspective (ULSUP)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.716-00-00/37716-00-00-g00.zip
|
The present document is a technical report for SA NR Supplementary uplink (SUL), NSA NR SUL and NSA NR SUL with UL sharing from the UE perspective (ULSUP) under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address NR SUL for the Rel-16 bands/band combinations in Table 1-1 to Table 1-4.
Table 1-1: Release 16 SUL bands
Band number
UL
DL
Duplex mode
n89
824 – 849 MHz
N/A
SUL
n95
2010 – 2015 MHz
N/A
SUL
Table 1-2: Release 16 SA SUL band combinations
SA SUL band combination
REL independent from
SUL_n79-n84
Rel-15
SUL_n41-n80
Rel-15
SUL_n41-n81
Rel-15
SUL_n41-n95
Rel-15
SUL_n77_n80
Rel-15
SUL_n77_n84
Rel-15
SUL_n79-n95
Rel-15
Table 1-3: Release 16 NSA SUL band combinations
NSA SUL band combination
REL independent from
DC_1_SUL_n78-n80
Rel-15
DC_7_SUL_n78-n80
Rel-15
DC_20_SUL_n78-n80
Rel-15
DC_8_SUL_n78-n80
Rel-15
DC_1_SUL_n77-n80
Rel-15
DC_3_SUL_n77-n84
Rel-15
DC_3_SUL_n78-n84
Rel-15
Table 1-4: Release 16 NSA SUL with ULSUP band combinations
NSA SUL with ULSUP band combination
REL independent from
DC_1_SUL_n79-n84
Rel-15
DC_3_SUL_n41-n80
Rel-15
DC_8_SUL_n41-n81
Rel-15
DC_3_SUL_n78-n80
Rel-15
DC_1-3_SUL_n78-n80
Rel-15
DC_3-7_SUL_n78-n80
Rel-15
DC_3-8_SUL_n78-n80
Rel-15
DC_3_20_SUL_n78-n80
Rel-15
DC_3_SUL_n77-n80
Rel-15
DC_1_SUL_n77-n84
Rel-15
This TR contains a general part and specific band combination part. The actual requirements are added to the corresponding technical specifications.
|
37.716-11-11
|
E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) of 1 band LTE (1 Down Link (DL) / 1 Up Link (UL)) and 1 NR band (1 DL / 1 UL)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.716-11-11/37716-11-11-g00.zip
|
The present document is a technical report for Dual Connectivity (EN-DC) of 1 LTE band (1DL/1UL) and 1 NR band (1DL/1UL) under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address Dual Connectivity (EN-DC) of 1 LTE band (1DL/1UL) and 1 NR band (1DL/1UL)for the Rel-16 band combinations in Table 1-1 and Table 1-2. The co-existence analysis and RF front end requirements such as Delta RIB,C and TIB,C are described based on the band combination basis since such information have no difference between the EN-DC configulations consisting with the same E-UTRA band and the same NR band.
Table 1-1: Release 16 EN-DC of 1 LTE band (1DL/1UL) and 1 NR band (1DL/1UL) within FR1
DC combination
Uplink EN-DC configuration
DC_1A_n3A
DC_1A_n3A
DC_1C_n3A
DC_1C_n3A
DC_1A_n5A
DC_1A_n5A
DC_1A_n7A
DC_1A_n7A
DC_1A_n8A
DC_1A_n8A
DC_1A_n20A
DC_1A_n20A
DC_1A_n38A
DC_1C_n38A
DC_1A_n38A
DC_1A_n41A
DC_1A_n41A
DC_1A_n50A
DC_1A_n50A
DC_1A_n71A
DC_1A_n71B
DC_1A_n71A
DC_1A_n77(2A)
DC_1A_n77A
DC_2A_n2A
DC_2A_n2A1
DC_2A-2A_n5A
DC_2A_n5A
DC_2A_n7A
DC_2A_n7(2A)
DC_2A_n7A
DC_2A_n12A
DC_2A_n12A
DC_2A_n38A
DC_2A_n38A
DC_2A_n41A
DC_2A_n41A
DC_2C_n41A
DC_2A_n41A
DC_2A_n48A
DC_2A_n48B
DC_2A_n48A
DC_3A_n1A
DC_3A_n1A
DC_3C_n1A
DC_3A_n1A
DC_3C_n1A
DC_3A-3A_n1A
DC_3A_n1A
DC_3A_n3A
DC_3A_n3A
DC_3A_n5A
DC_3A_n5A
DC_3C_n5A
DC_3A_n5A
DC_3C_n5A
DC_3A_n8A
DC_3A_n8A
DC_3A_n20A
DC_3A_n20A
DC_3A_n34A
DC_3A_n34A
DC_3A_n38A
DC_3C_n38A
DC_3A_n38A
DC_3A_n41A
DC_3A_n41A
DC_3A_n50A
DC_3A_n50A
DC_3A_n71A
DC_3A_n71B
DC_3A_n71A
DC_3A_n77(2A)
DC_3A_n77A
DC_3A-3A_n77A
DC_3A_n77A
DC_3A-3A_n78A
DC_3A_n78A
DC_4A_n38A
DC_4A_n38A
DC_4A_n41A
DC_4A_n41A
DC_4A_n78A
DC_4A_n78A
DC_4A_n78(2A)
DC_4A_n78A
DC_5A_n2A
DC_5B_n2A
DC_5A_n2A
DC_5A-5A_n2A
DC_5A_n2A
DC_(n)5AA
DC_(n)5AA1
DC_5A_n5A
DC_5A_n5A1
DC_5A_n7A
DC_5A_n7(2A)
DC_5A_n7A
DC_5A_n12A
DC_5A_n12A
DC_5A_n38A
DC_5A_n38A
DC_5A_n48A
DC_5A_n48B
DC_5A_n48A
DC_5B_n66A
DC_5A_n66A
DC_5A-5A_n66A
DC_5A_n66A
DC_5A_n71A
DC_5A_n71A
DC_5A_n79A
DC_5A_n79A
DC_7A_n1A
DC_7A_n1A
DC_7C_n1A
DC_7A_n1A
DC_7C_n1A
DC_7A-7A_n1A
DC_7A_n1A
DC_7A_n3A
DC_7A_n3A
DC_7A_n5A
DC_7A_n5A
DC_7A-7A_n5A
DC_7A_n5A
DC_7C_n5A
DC_7A_n5A
DC_7C_n5A
DC_7A_n7A
DC_7A_n7A1
DC_7A_n8A
DC_7A_n8A
DC_7A_n20A
DC_7A_n20A
DC_7A_n40A
DC_7A_n40A
DC_7A_n66A
DC_7A_n66A
DC_7A-7A_n66A
DC_7A_n66A
DC_7C_n66A
DC_7A_n66A
DC_7A_n71A
DC_7A_n71A
DC_7A_n77A
DC_7A_n77A
DC_7A-7A_n77A
DC_7A_n77A
DC_8A_n1A
DC_8A_n1A
DC_8A_n3A
DC_8A_n3A
DC_8A_n20A
DC_8A_n20A
DC_8A_n28A
DC_8A_n28A
DC_8A_n34A
DC_8A_n34A
DC_8A_n39A
DC_8A_n39A
DC_8A_n41A
DC_8A_n41A
DC_8A_n41C
DC_8A_n41A
DC_8A_n41C
DC_8A_n41(2A)
DC_8A_n41A
DC_11A_n3A
DC_11A_n3A
DC_11A_n28A
DC_11A_n28A
DC_12A_n2A
DC_12A_n2A
DC_12A_n7A
DC_12A_n7(2A)
DC_12A_n7A
DC_(n)12AA
DC_(n)12AA1
DC_12A_n25A
DC_12A_n25A
DC_12A_n41A
DC_12A_n41A
DC_12A_n38A
DC_12A_n38A
DC_12A_n71A
DC_12A_n71A
DC_12A_n78A
DC_12A_n78(2A)
DC_12A_n78A
DC_13A_n2A
DC_13A_n2A
DC_13A_n5A
DC_13A_n5A
DC_13A_n7A
DC_13A_n7(2A)
DC_13A_n7A
DC_13A_n48A
DC_13A_n48B
DC_13A_n48A
DC_13A_n66A
DC_13A_n66A
DC_13A_n71A
DC_13A_n71A
DC_13A_n78A
DC_13A_n78(2A)
DC_13A_n78A
DC_14A_n2A
DC_14A_n2A
DC_14A_n66A
DC_14A_n66A
DC_18A_n3A
DC_18A_n3A
DC_20A_n1A
DC_20A_n1A
DC_20A_n3A
DC_20A_n3A
DC_20A_n7A
DC_20A_n7A
DC_20A_n38A
DC_20A_n38A
DC_20A_n41A
DC_20A_n41A
DC_20A_n50A
DC_20A_n50A
DC_25A-25A_n41A
DC_25A_n41A
DC_26A_n25A
DC_26A_n25A
DC_28A_n3A
DC_28A_n3A
DC_28A_n5A1
DC_28A_n5A
DC_28A_n7A
DC_28A_n7B
DC_28A_n7A
DC_28A_n7B
DC_28A_n8A
DC_28A_n8A
DC_28A_n40A
DC_28A_n40A
DC_28A_n41A
DC_28A_n41A
DC_28A_n50A
DC_28A_n50
DC_30A_n2A
DC_30A_n2A
DC_(n)38AA
DC_(n)38AA1
DC_39A_n40A
DC_39A_n40A
DC_39A_n41A
DC_39A_n41A
DC_40A_n1A
DC_40A_n1A
DC_40A_n41A
DC_40A_n41A
DC_40A_n78A
DC_40A_n78A
DC_40C_n78A
DC_40C_n78A
DC_40A_n79A
DC_40A_n79A
DC_41A_n3A
DC_41A_n3A
DC_41C_n3A
DC_41A_n3A
DC_41C_n3A
DC_41A_n28A
DC_41A_n28A
DC_41C_n28A
DC_41A_n28A
DC_41C_n28A
DC_41A_n77(2A)
DC_41A_n77A
DC_41C_n77(2A)
DC_41A_n77A
DC_41C_n77A
DC_41A_n78(2A)
DC_41A_n78A
DC_41C_n78(2A)
DC_41A_n78A
DC_41C_n78A
DC_42A_n28A
DC_42C_n28A
DC_42A_n28A
DC_42C_n28A
DC_48A_n5A
DC_48A_n5A
DC_48A_n12A
DC_48A_n12A
DC_(n)48AA
DC_(n)48AA1
DC_(n)48CA
DC_(n)48AA1
DC_48A_n48A1
DC_(n)48DA
DC_(n)48AA1
DC_48A_n48A1
DC_48A_n48A
DC_48C_n48A
DC_48D_n48A
DC_48A_n48A1
DC_48A_(n)48AA
DC_(n)48AA1
DC_48A_n48A1
DC_48A-48A_n48A
DC_48A_n48A1
DC_48A_n66A
DC_48A_n66A
DC_48A_n71A
DC_48B_n71A
DC_48C_n71A
DC_48D_n71A
DC_48A_n71A
DC_48A-48A_n71A
DC_48A-48A-48A_n71A
DC_48A_n71A
DC_66A_n2A
DC_66A_n2A
DC_66B_n5A
DC_66C_n5A
DC_66A_n5A
DC_66A-66A_n5A
DC_66A_n5A
DC_66A-66A-66A_n5A
DC_66A_n5A
DC_66A_n7A
DC_66A-66A_n7A
DC_66A_n7(2A)
DC_66A-66A_n7(2A)
DC_66A_n7A
DC_66A_n12A
DC_66A_n12A
DC_66A_n25A
DC_66A_n25A
DC_66A_n38A
DC_66A_n38A
DC_66A-66A_n38A
DC_66A_n38A
DC_66A_n41A
DC_66A_n41A
DC_66A_n48A
DC_66A_n48B
DC_66A_n48A
DC_66A-66A_n48A
DC_66A-66A_n48B
DC_66A_n48A
DC_66A_n66A
DC_66A_n66A1
DC_71A_n5A
DC_71A_n5A
DC_71A_n38A
DC_71A_n38A
DC_71A_n48A
DC_71A_n48A
DC_71A_n66A
DC_71A_n66A
DC_71A_n78A
DC_71A_n78A
NOTE 1: Only single switched UL is supported.
NOTE 2: The frequency range in band n28 is restricted for this band combination to 703-733 MHz for the UL and 758-788 MHz for the DL.
Table 1-2: Release 16 EN-DC of 1 LTE band (1DL/1UL) and 1 NR band (1DL/1UL) including FR2
DC combination
Uplink EN-DC configuration
DC_1A_n257G
DC_1A_n257H
DC_1A_n257I
DC_1A_n257J
DC_1A_n257K
DC_1A_n257L
DC_1A_n257M
DC_1A_n257A
DC_1A_n258A
DC_1A_n258A
DC_1A_n258D
DC_1A_n258D
DC_2A_n258A
DC_2A_n258A
DC_2A_n260(5A)
DC_2A_n260A
DC_2A_n260(6A)
DC_2A_n260A
DC_2A_n260(7A)
DC_2A_n260A
DC_2A_n260(8A)
DC_2A_n260A
DC_2A_n260(2D)
DC_2A_n260A
DC_2A_n260(2G)
DC_2A_n260A
DC_2A_n260(3G)
DC_2A_n260A
DC_2A_n260(4G)
DC_2A_n260A
DC_2A_n260(2H)
DC_2A_n260A
DC_2A_n260(2O)
DC_2A_n260A
DC_2A_n260(3O)
DC_2A_n260A
DC_2A_n260(4O)
DC_2A_n260A
DC_2A_n260G
DC _2A_n260A
DC_2A_n260(2G)
DC _2A_n260A
DC_2A_n260(2A)
DC_2A_n260A
DC_2A_n260(6A)
DC_2A_n260A
DC_2A_n260(8A)
DC _2A_n260A
DC_2A_n260G
DC_2A_n260G
DC_2A_n260(A-G)
DC_2A_n260A
DC_2A_n260(A-G)
DC_2A_n260G
DC_2A_n260(2G)
DC_2A_n260G
DC_2A_n260(2A-2G)
DC_2A_n260A
DC_2A_n260(2A-2G)
DC _2A_n260G
DC_2A_n260H
DC _2A_n260A
DC_2A_n260H
DC _2A_n260G
DC_2A_n260H
DC _2A_n260H
DC_2A_n260(2H)
DC_2A_n260A
DC_2A_n260(2H)
DC_2A_n260G
DC_2A_n260(2H)
DC_2A_n260H
DC_2A_n260(2A-2H)
DC_2A_n260A
DC_2A_n260(2A-2H)
DC_2A_n260G
DC_2A_n260(2A-2H)
DC _2A_n260H
DC_2A_n260O
DC _2A_n260A
DC_2A_n260O
DC_2A_n260O
DC_2A_n260P
DC_2A_n260A
DC_2A_n260P
DC_2A_n260O
DC_2A_n260P
DC_2A_n260P
DC_2A_n260Q
DC_2A_n260A
DC_2A_n260Q
DC_2A_n260O
DC_2A_n260Q
DC_2A_n260P
DC_2A_n260Q
DC_2A_n260Q
DC_2A_n260(A-P-Q)
DC_2A_n260A
DC_2A_n260(A-P-Q)
DC_2A_n260O
DC_2A_n260(A-P-Q)
DC_2A_n260P
DC_2A_n260(A-P-Q)
DC_2A_n260Q
DC_2A_n260(3A-O-P)
DC_2A_n260A
DC_2A_n260(3A-O-P)
DC_2A_n260O
DC_2A_n260(3A-O-P)
DC_2A_n260P
DC_2A_n260(4A-2O)
DC_2A_n260A
DC_2A_n260(4A-2O)
DC_2A_n260O
DC_2A_n261A
DC_2A_n260A
DC_2A_n261(2A)
DC_2A_n260A
DC_2A_n261(4A)
DC _2A_n261A
DC_2A_n261G
DC_2A_n261G
DC_2A_n261H
DC _2A_n261H
DC_2A_n261H
DC _2A_n261G
DC_2A_n261I
DC _2A_n261I
DC_2A_n261I
DC_2A_n261H
DC_2A_n261I
DC_2A_n261G
DC_2A_n261J
DC_2A_n261A
DC_2A_n261J
DC_2A_n261G
DC_2A_n261J
DC _2A_n261H
DC_2A_n261J
DC _2A_n261I
DC_2A_n261K
DC_2A_n261A
DC_2A_n261K
DC_2A_n261G
DC_2A_n261K
DC _2A_n261H
DC_2A_n261K
DC _2A_n261I
DC_2A_n261M
DC _2A_n261A
DC_2A_n261M
DC _2A_n261I
DC_2A_n261M
DC _2A_n261H
DC_2A_n261M
DC_2A_n261G
DC_2A_n261(A-H)
DC _2A_n261A
DC_2A_n261(A-H)
DC _2A_n261H
DC_2A_n261(A-H)
DC _2A_n261G
DC_2A_n261(G-H)
DC _2A_n261A
DC_2A_n261(G-H)
DC _2A_n261H
DC_2A_n261(G-H)
DC _2A_n261G
DC_2A_n261(2H)
DC_2A_n261H
DC_2A_n261(2H)
DC_2A_n261G
DC_2A_n261(A-G-H)
DC_2A_n261A
DC_2A_n261(A-G-H)
DC _2A_n261H
DC_2A_n261(A-G-H)
DC _2A_n261G
DC_2A_n261(A-G-I)
DC _2A_n261A
DC_2A_n261(A-G-I)
DC _2A_n261I
DC_2A_n261(A-G-I)
DC _2A_n261H
DC_2A_n261(A-G-I)
DC _2A_n261G
DC_2A_n261(H-I)
DC _2A_n261A
DC_2A_n261(H-I)
DC _2A_n261I
DC_2A_n261(H-I)
DC _2A_n261H
DC_2A_n261(H-I)
DC _2A_n261G
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_3A_n257J
DC_3A_n257K
DC_3A_n257L
DC_3A_n257M
DC_3A_n257A
DC_3C_n257A
DC_3C_n257D
DC_3C_n257E
DC_3C_n257F
DC_3C_n257G
DC_3C_n257H
DC_3C_n257I
DC_3C_n257J
DC_3C_n257K
DC_3C_n257L
DC_3C_n257M
DC_3C_n257A
DC_3A-3A_n257A
DC_3A-3A_n257D
DC_3A-3A_n257E
DC_3A-3A_n257F
DC_3A-3A_n257G
DC_3A-3A_n257H
DC_3A-3A_n257I
DC_3A-3A_n257J
DC_3A-3A_n257K
DC_3A-3A_n257L
DC_3A-3A_n257M
DC_3A_n257A
DC_3A_n258B
DC_3A_n258C
DC_3A_n258D
DC_3A_n258E
DC_3A_n258F
DC_3A_n258G
DC_3A_n258H
DC_3A_n258I
DC_3A_n258J
DC_3A_n258K
DC_3A_n258L
DC_3A_n258M
DC_3A_n258A
DC_4A_n260(5A)
DC_4A_n260A
DC_4A_n260(6A)
DC_4A_n260A
DC_4A_n260(7A)
DC_4A_n260A
DC_4A_n260(8A)
DC_4A_n260A
DC_4A_n260(2D)
DC_4A_n260A
DC_4A_n260(2G)
DC_4A_n260A
DC_4A_n260(3G)
DC_4A_n260A
DC_4A_n260(4G)
DC_4A_n260A
DC_4A_n260(2H)
DC_4A_n260A
DC_4A_n260(2O)
DC_4A_n260A
DC_4A_n260(3O)
DC_4A_n260A
DC_4A_n260(4O)
DC_4A_n260A
DC_4A_n260(A-D)
DC_4A_n260A
DC_4A_n260(2A-D)
DC_4A_n260A
DC_4A_n260(A-O)
DC_4A_n260A
DC_4A_n260(2A-O)
DC_4A_n260A
DC_4A_n260(A-D-O)
DC_4A_n260A
DC_4A_n260(2A-D-O)
DC_4A_n260A
DC_4A_n260(A-2O)
DC_4A_n260A
DC_4A_n260(D-2O)
DC_4A_n260A
DC_4A_n260(A-D-2O)
DC_4A_n260A
DC_4A_n260(2A-D-2O)
DC_4A_n260A
DC_4A_n260(A-2D)
DC_4A_n260A
DC_4A_n260(2A-2D)
DC_4A_n260A
DC_4A_n260(A-P)
DC_4A_n260A
DC_4A_n260(2A-P)
DC_4A_n260A
DC_4A_n260(A-2P)
DC_4A_n260A
DC_4A_n260(2A-2P)
DC_4A_n260A
DC_4A_n260(A-G)
DC_4A_n260A
DC_4A_n260(2A-G)
DC_4A_n260A
DC_4A_n260(A-2G)
DC_4A_n260A
DC_4A_n260(2A-2G)
DC_4A_n260A
DC_4A_n260(G-O)
DC_4A_n260A
DC_4A_n260(2G-O)
DC_4A_n260A
DC_4A_n260(A-G-O)
DC_4A_n260A
DC_4A_n260(2A-G-O)
DC_4A_n260A
DC_4A_n260(A-2G-O)
DC_4A_n260A
DC_4A_n260(2A-2G-O)
DC_4A_n260A
DC_4A_n260(A-H)
DC_4A_n260A
DC_4A_n260(A-2H)
DC_4A_n260A
DC_4A_n260(2A-H)
DC_4A_n260A
DC_4A_n260(2A-2H)
DC_4A_n260A
DC_4A_n260(2A-2O)
DC_4A_n260A
DC_4A_n260(A-3O)
DC_4A_n260A
DC_4A_n260(2A-3O)
DC_4A_n260A
DC_4A_n260(A-4O)
DC_4A_n260A
DC_4A_n260(2A-4O)
DC_4A_n260A
DC_4A_n260(3A-O)
DC_4A_n260A
DC_4A_n260(3A-2O)
DC_4A_n260A
DC_4A_n260(3A-3O)
DC_4A_n260A
DC_4A_n260(3A-G)
DC_4A_n260A
DC_4A_n260(3A-2G)
DC_4A_n260A
DC_4A_n260(4A-G)
DC_4A_n260A
DC_4A_n260(4A-2G)
DC_4A_n260A
DC_4A_n260(4A-O)
DC_4A_n260A
DC_4A_n260(4A-2O)
DC_4A_n260A
DC_4A_n260(D-2G)
DC_4A_n260A
DC_4A_n260(2D-O)
DC_4A_n260A
DC_4A_n260(G-2O)
DC_4A_n260A
DC_4A_n260(2G-2O)
DC_4A_n260A
DC_4A_n260(G-3O)
DC_4A_n260A
DC_4A_n260(2G-3O)
DC_4A_n260A
DC_4A_n260(G-4O)
DC_4A_n260A
DC_4A_n260(2G-4O)
DC_4A_n260A
DC_4A_n260(3G-O)
DC_4A_n260A
DC_4A_n260(4G-O)
DC_4A_n260A
DC_4A_n260(H-O)
DC_4A_n260A
DC_4A_n260(2H-O)
DC_4A_n260A
DC_4A_n260(2A)
DC _4A_n260A
DC_4A_n260(3A)
DC_4A_n260A
DC_4A_n260(4A)
DC_4A_n260A
DC_4A_n260G
DC_4A_n260A
DC_4A_n260G
DC_4A_n260G
DC_4A_n260(2A-2G)
DC_4A_n260A
DC_4A_n260(2A-2G)
DC_4A_n260G
DC_4A_n260H
DC_4A_n260A
DC_4A_n260H
DC_4A_n260G
DC_4A_n260H
DC_4A_n260H
DC_4A_n260(2H)
DC_4A_n260G
DC_4A_n260(2H)
DC_4A_n260H
DC_4A_n260(2A-2H)
DC_4A_n260G
DC_4A_n260(2A-2H)
DC_4A_n260H
DC_4A_n260O
DC_4A_n260A
DC_4A_n260O
DC_4A_n260O
DC_4A_n260P
DC_4A_n260A
DC_4A_n260P
DC_4A_n260O
DC_4A_n260P
DC_4A_n260P
DC_4A_n260Q
DC_4A_n260A
DC_4A_n260Q
DC_4A_n260O
DC_4A_n260Q
DC_4A_n260P
DC_4A_n260Q
DC_4A_n260Q
DC_4A_n260(A-P-Q)
DC_4A_n260A
DC_4A_n260(A-P-Q)
DC_4A_n260O
DC_4A_n260(A-P-Q)_
DC_4A_n260P
DC_4A_n260(A-P-Q)
DC_4A_n260Q
DC_4A_n260(3A-O-P)
DC_4A_n260A
DC_4A_n260(3A-O-P)
DC_4A_n260O
DC_4A_n260(3A-O-P)
DC_4A_n260P
DC_4A_n260(4A-2O)
DC_4A_n260O
DC_4A_n261(2H)
DC_4A_n261A
DC_4A_n261(2I)
DC_4A_n261A
DC_4A_n261(A-D)
DC_4A_n261A
DC_4A_n261(A-H)
DC_4A_n261A
DC_4A_n261(A-2H)
DC_4A_n261A
DC_4A_n261(A-D-H)
DC_4A_n261A
DC_4A_n261(A-G)
DC_4A_n261A
DC_4A_n261(A-G-H)
DC_4A_n261A
DC_4A_n261(A-I)
DC_4A_n261A
DC_4A_n261(A-2I)
DC_4A_n261A
DC_4A_n261(G-I)
DC_4A_n261A
DC_4A_n261(A-G-I)
DC_4A_n261A
DC_4A_n261(A-H-I)
DC_4A_n261A
DC_4A_n261(G-H)
DC_4A_n261A
DC_4A_n261(H-I)
DC_4A_n261A
DC_4A_n261(4A)
DC_4A_n261A
DC_4A_n261G
DC_4A_n261G
DC_4A_n261H
DC_4A_n261H
DC_4A_n261H
DC_4A_n261G
DC_4A_n261I
DC_4A_n261I
DC_4A_n261I
DC_4A_n261H
DC_4A_n261I
DC_4A_n261G
DC_4A_n261M
DC_4A_n261A
DC_4A_n261M
DC_4A_n261I
DC_4A_n261M
DC_4A_n261H
DC_4A_n261M
DC_4A_n261G
DC_4A_n261(A-H)
DC_4A_n261H
DC_4A_n261(A-H)
DC_4A_n261G
DC_4A_n261(G-H)
DC_4A_n261H
DC_4A_n261(G-H)
DC_4A_n261G
DC_4A_n261(2H)
DC_4A_n261H
DC_4A_n261(2H)
DC_4A_n261G
DC_4A_n261(A-G-H)
DC_4A_n261H
DC_4A_n261(A-G-H)
DC_4A_n261G
DC_4A_n261(A-G-I)
DC_4A_n261I
DC_4A_n261(A-G-I)
DC_4A_n261H
DC_4A_n261(A-G-I)
DC_4A_n261G
DC_4A_n261(H-I)
DC_4A_n261I
DC_4A_n261(H-I)
DC_4A_n261H
DC_4A_n261(H-I)
DC_4A_n261G
DC_5A_n257D
DC_5A_n257E
DC_5A_n257F
DC_5A_n257G
DC_5A_n257H
DC_5A_n257I
DC_5A_n257J
DC_5A_n257K
DC_5A_n257L
DC_5A_n257M
DC_5A_n257A
DC_5A_n258A
DC_5A_n258A
DC_5A_n260(2D)
DC_5A_n260A
DC_5A_n260(3G)
DC_5A_n260A
DC_5A_n260(4G)
DC_5A_n260A
DC_5A_n260(2H)
DC_5A_n260A
DC_5A_n260(A-D)
DC_5A_n260A
DC_5A_n260(2A-D)
DC_5A_n260A
DC_5A_n260(A-D-O)
DC_5A_n260A
DC_5A_n260(2A-D-O)
DC_5A_n260A
DC_5A_n260(D-2O)
DC_5A_n260A
DC_5A_n260(A-D-2O)
DC_5A_n260A
DC_5A_n260(2A-D-2O)
DC_5A_n260A
DC_5A_n260(A-2D)
DC_5A_n260A
DC_5A_n260(2A-2D)
DC_5A_n260A
DC_5A_n260(A-P)
DC_5A_n260A
DC_5A_n260(2A-P)
DC_5A_n260A
DC_5A_n260(A-2P)
DC_5A_n260A
DC_5A_n260(2A-2P)
DC_5A_n260A
DC_5A_n260(3A-3O)
DC_5A_n260A
DC_5A_n260(D-2G)
DC_5A_n260A
DC_5A_n260(2D-O)
DC_5A_n260A
DC_5A_n260(G-2O)
DC_5A_n260A
DC_5A_n260(2G-2O)
DC_5A_n260A
DC_5A_n260(G-3O)
DC_5A_n260A
DC_5A_n260(2G-3O)
DC_5A_n260A
DC_5A_n260(G-4O)
DC_5A_n260A
DC_5A_n260(2G-4O)
DC_5A_n260A
DC_5A_n260(3G-O)
DC_5A_n260A
DC_5A_n260(4G-O)
DC_5A_n260A
DC_5A_n260(H-O)
DC_5A_n260A
DC_5A_n260(2H-O)
DC_5A_n260A
DC_5A_n260(9A)
DC_5A_n260A
DC_5A_n260(10A)
DC_5A_n260A
DC_5A_n260(2P)
DC_5A_n260A
DC_5A_n260(3P)
DC_5A_n260A
DC_5A_n260(4P)
DC_5A_n260A
DC_5A_n260(2A-2G-2O)
DC_5A_n260A
DC_5A_n260(6A-2O)
DC_5A_n260A
DC_5A_n260(8A-2O)
DC_5A_n260A
DC_5A_n260(2A-2O-2P)
DC_5A_n260A
DC_5A_n260(6A-3O)
DC_5A_n260A
DC_5A_n260(2A-4O)
DC_5A_n260A
DC_5A_n260(4A-4O)
DC_5A_n260A
DC_5A_n260(6A-2P)
DC_5A_n260A
DC_5A_n260(2O-2P)
DC_5A_n260A
DC_5A_n260(4P)
DC_5A_n260A
DC_5A_n260(2A-4P)
DC_5A_n260A
DC_5A_n260(4A-2Q)
DC_5A_n260A
DC_5A_n260(2A-2O-2Q)
DC_5A_n260A
DC_5A_n261(2H)
DC_5A_n261A
DC_5A_n261(2I)
DC_5A_n261A
DC_5A_n261(A-D)
DC_5A_n261A
DC_5A_n261(A-H)
DC_5A_n261A
DC_5A_n261(A-D-H)
DC_5A_n261A
DC_5A_n261(A-G)
DC_5A_n261A
DC_5A_n261(A-G-H)
DC_5A_n261A
DC_5A_n261(A-I)
DC_5A_n261A
DC_5A_n261(G-I)
DC_5A_n261A
DC_5A_n261(A-G-I)
DC_5A_n261A
DC_5A_n261(A-H-I)
DC_5A_n261A
DC_5A_n261(G-H)
DC_5A_n261A
DC_5A_n261(H-I)
DC_5A_n261A
DC_5A_n261(A-2D)
DC_5A_n261A
DC_5A_n261(A-2G-2O)
DC_5A_n261A
DC_5A_n261(A-3G-O)
DC_5A_n261A
DC_5A_n261(A-4G)
DC_5A_n261A
DC_5A_n261(A-2H)
DC_5A_n261A
DC_5A_n261(A-2I)
DC_5A_n261A
DC_5A_n261(A-4O)
DC_5A_n261A
DC_5A_n261(A-7O)
DC_5A_n261A
DC_5A_n261(A-2P)
DC_5A_n261A
DC_5A_n261(A-2Q)
DC_5A_n261A
DC_5A_n261(A-2D)
DC_5A_n261A
DC_7A_n257D
DC_7A_n257E
DC_7A_n257F
DC_7A_n257G
DC_7A_n257H
DC_7A_n257I
DC_7A_n257J
DC_7A_n257K
DC_7A_n257L
DC_7A_n257M
DC_7A_n257A
DC_7A-7A_n257D
DC_7A-7A_n257E
DC_7A-7A_n257F
DC_7A-7A_n257G
DC_7A-7A_n257H
DC_7A-7A_n257I
DC_7A-7A_n257J
DC_7A-7A_n257K
DC_7A-7A_n257L
DC_7A-7A_n257M
DC_7A_n257A
DC_7A_n258B
DC_7A_n258C
DC_7A_n258D
DC_7A_n258E
DC_7A_n258F
DC_7A_n258G
DC_7A_n258H
DC_7A_n258I
DC_7A_n258J
DC_7A_n258K
DC_7A_n258L
DC_7A_n258M
DC_7A_n258A
DC_8A_n257D
DC_8A_n257E
DC_8A_n257F
DC_8A_n257G
DC_8A_n257H
DC_8A_n257I
DC_8A_n257J
DC_8A_n257K
DC_8A_n257L
DC_8A_n257M
DC_8A_n257A
DC_12A_n257A
DC_12A_n257A
DC_12A_n258A
DC_12A_n258A
DC_12A_n261A
DC_12A_n261A
DC_13A_n260(5A)
DC_13A_n260A
DC_13A_n260(6A)
DC_13A_n260A
DC_13A_n260(7A)
DC_13A_n260A
DC_13A_n260(8A)
DC_13A_n260A
DC_13A_n260(2D)
DC_13A_n260A
DC_13A_n260(2G)
DC_13A_n260A
DC_13A_n260(3G)
DC_13A_n260A
DC_13A_n260(4G)
DC_13A_n260A
DC_13A_n260(2H)
DC_13A_n260A
DC_13A_n260(2O)
DC_13A_n260A
DC_13A_n260(3O)
DC_13A_n260A
DC_13A_n260(4O)
DC_13A_n260A
DC_13A_n260(2A)
DC_13A_n260A
DC_13A_n260(3A)
DC_13A_n260A
DC_13A_n260(4A)
DC_13A_n260A
DC_13A_n260G
DC_13A_n260A
DC_13A_n260G
DC_13A_n260G
DC_13A_n260(A-G)
DC_13A_n260A
DC_13A_n260(A-G)
DC_13A_n260G
DC_13A_n260(2G)
DC_13A_n260G
DC_13A_n260(2A-2G)
DC_13A_n260A
DC_13A_n260(2A-2G)
DC_13A_n260G
DC_13A_n260H
DC_13A_n260A
DC_13A_n260H
DC_13A_n260G
DC_13A_n260H
DC_13A_n260H
DC_13A_n260(2H)
DC_13A_n260G
DC_13A_n260(2H)
DC_13A_n260H
DC_13A_n260(2A-2H)
DC_13A_n260A
DC_13A_n260(2A-2H)
DC_13A_n260G
DC_13A_n260(2A-2H)
DC_13A_n260H
DC_13A_n260O
DC_13A_n260A
DC_13A_n260O
DC_13A_n260O
DC_13A_n260P
DC_13A_n260A
DC_13A_n260P
DC_13A_n260O
DC_13A_n260P
DC_13A_n260P
DC_13A_n260Q
DC_13A_n260A
DC_13A_n260Q
DC_13A_n260O
DC_13A_n260Q
DC_13A_n260P
DC_13A_n260Q
DC_13A_n260Q
DC_13A_n260(A-P-Q)
DC_13A_n260A
DC_13A_n260(A-P-Q)
DC_13A_n260O
DC_13A_n260(A-P-Q)
DC_13A_n260P
DC_13A_n260(A-P-Q)
DC_13A_n260Q
DC_13A_n260(3A-O-P)
DC_13A_n260A
DC_13A_n260(3A-O-P)
DC_13A_n260O
DC_13A_n260(3A-O-P)
DC_13A_n260P
DC_13A_n260(4A-2O)
DC_13A_n260A
DC_13A_n260(4A-2O)
DC_13A_n260O
DC_13A_n261(2H)
DC_13A_n261A
DC_13A_n261(2I)
DC_13A_n261A
DC_13A_n261(4A)
DC_13A_n261A
DC_13A_n261G
DC_13A_n261G
DC_13A_n261H
DC_13A_n261H
DC_13A_n261H
DC_13A_n261G
DC_13A_n261I
DC_13A_n261I
DC_13A_n261M
DC_13A_n261A
DC_13A_n261M
DC_13A_n261I
DC_13A_n261(A-H)
DC_13A_n261A
DC_13A_n261(A-H)
DC_13A_n261H
DC_13A_n261(A-H)
DC_13A_n261G
DC_13A_n261(G-H)
DC_13A_n261A
DC_13A_n261(G-H)
DC_13A_n261H
DC_13A_n261(G-H)
DC_13A_n261G
DC_13A_n261(2H)
DC_13A_n261H
DC_13A_n261(2H)
DC_13A_n261G
DC_13A_n261(A-G-H)
DC_13A_n261A
DC_13A_n261(A-G-H)
DC_13A_n261H
DC_13A_n261(A-G-H)
DC_13A_n261G
DC_13A_n261(A-G-I)
DC_13A_n261A
DC_13A_n261(A-G-I)
DC_13A_n261I
DC_13A_n261(A-G-I)
DC_13A_n261H
DC_13A_n261(A-G-I)
DC_13A_n261G
DC_13A_n261(H-I)
DC_13A_n261A
DC_13A_n261(H-I)
DC_13A_n261I
DC_13A_n261(H-I)
DC_13A_n261H
DC_13A_n261(H-I)
DC_13A_n261G
DC_14A_n260A
DC_14A_n260G
DC_14A_n260H
DC_14A_n260I
DC_14A_n260J
DC_14A_n260K
DC_14A_n260L
DC_14A_n260M
DC_14A_n260A
DC_14A_n260G
DC_14A_n260H
DC_14A_n260I
DC_14A_n260J
DC_14A_n260K
DC_14A_n260L
DC_14A_n260M
DC_18A_n257F
DC_18A_n257M
DC_18A_n257A
DC_28A_n258B
DC_28A_n258C
DC_28A_n258D
DC_28A_n258E
DC_28A_n258F
DC_28A_n258G
DC_28A_n258H
DC_28A_n258I
DC_28A_n258J
DC_28A_n258K
DC_28A_n258L
DC_28A_n258M
DC_28A_n258A
DC_39A_n257A
DC_39A_n257D
DC_39A_n257E
DC_39A_n257F
DC_39A_n257G
DC_39A_n257H
DC_39A_n257I
DC_39A_n257J
DC_39A_n257K
DC_39A_n257L
DC_39A_n257M
DC_39A_n257A
DC_41A_n257F
DC_41A_n257A
DC_41A_n257M
DC_41A_n257A
DC_41C_n257F
DC_41A_n257A
DC_41C_n257M
DC_41A_n257A
DC_42A_n257M
DC_42A_n257A
DC_42C_n257M
DC_42A_n257A
DC_48A_n261A
DC_48A_n261A
DC_48C_n261A
DC_48C_n261A
DC_48D_n261A
DC_48C_n261A
DC_48A_n261(2A)
DC_48A_n261A
DC_48C_n261(2A)
DC_48C_n261A
DC_48D_n261(2A)
DC_48C_n261A
DC_66A_n258A
DC_66A_n258A
DC_66A_n260(2D)
DC_66A_n260A
DC_66A_n260(3G)
DC_66A_n260A
DC_66A_n260(4G)
DC_66A_n260A
DC_66A_n260(2H)
DC_66A_n260A
DC_66A_n260(A-D)
DC_66A_n260A
DC_66A_n260(2A-D)
DC_66A_n260A
DC_66A_n260(A-D-O)
DC_66A_n260A
DC_66A_n260(2A-D-O)
DC_66A_n260A
DC_66A_n260(D-2O)
DC_66A_n260A
DC_66A_n260(A-D-2O)
DC_66A_n260A
DC_66A_n260(2A-D-2O)
DC_66A_n260A
DC_66A_n260(A-2D)
DC_66A_n260A
DC_66A_n260(2A-2D)
DC_66A_n260A
DC_66A_n260(A-P)
DC_66A_n260A
DC_66A_n260(2A-P)
DC_66A_n260A
DC_66A_n260(A-2P)
DC_66A_n260A
DC_66A_n260(2A-2P)
DC_66A_n260A
DC_66A_n260(3A-3O)
DC_66A_n260A
DC_66A_n260(D-2G)
DC_66A_n260A
DC_66A_n260(2D-O)
DC_66A_n260A
DC_66A_n260(G-2O)
DC_66A_n260A
DC_66A_n260(2G-2O)
DC_66A_n260A
DC_66A_n260(G-3O)
DC_66A_n260A
DC_66A_n260(2G-3O)
DC_66A_n260A
DC_66A_n260(G-4O)
DC_66A_n260A
DC_66A_n260(2G-4O)
DC_66A_n260A
DC_66A_n260(3G-O)
DC_66A_n260A
DC_66A_n260(4G-O)
DC_66A_n260A
DC_66A_n260(H-O)
DC_66A_n260A
DC_66A_n260(2H-O)
DC_66A_n260A
DC_66A_n260(9A)
DC_66A_n260A
DC_66A_n260(10A)
DC_66A_n260A
DC_66A_n260(2P)
DC_66A_n260A
DC_66A_n260(3P)
DC_66A_n260A
DC_66A_n260(4P)
DC_66A_n260A
DC_66A_n260(4A-2G)
DC_66A_n260A
DC_66A_n260(2A-2G-2O)
DC_66A_n260A
DC_66A_n260(2A-2H)
DC_66A_n260A
DC_66A_n260(2A-2O)
DC_66A_n260A
DC_66A_n260(4A-2O)
DC_66A_n260A
DC_66A_n260(6A-2O)
DC_66A_n260A
DC_66A_n260(8A-2O)
DC_66A_n260A
DC_66A_n260(2A-2O-2P)
DC_66A_n260A
DC_66A_n260(6A-3O)
DC_66A_n260A
DC_66A_n260(2A-4O)
DC_66A_n260A
DC_66A_n260(4A-4O)
DC_66A_n260A
DC_66A_n260(6A-2P)
DC_66A_n260A
DC_66A_n260(2O-2P)
DC_66A_n260A
DC_66A_n260(4P)
DC_66A_n260A
DC_66A_n260(2A-4P)
DC_66A_n260A
DC_66A_n260(4A-2Q)
DC_66A_n260A
DC_66A_n260(2A-2O-2Q)
DC_66A_n260A
DC_66A_n260(2A-2H)
DC_66A_n260A
DC_66A_n260G
DC_66A_n260H
DC_66A_n260(2A-2O)
DC_66A_n260A
DC_66A_n260O
DC_66A_n260(4A-2O)
DC_66A_n260A
DC_66A_n260O
DC_66A_n261(A-D)
DC_66A_n261A
DC_66A_n261(A-D-H)
DC_66A_n261A
DC_66A_n261(A-G)
DC_66A_n261A
DC_66A_n261(A-G-H)
DC_66A_n261A
DC_66A_n261(G-I)
DC_66A_n261A
DC_66A_n261(A-G-I)
DC_66A_n261A
DC_66A_n261(A-H-I)
DC_66A_n261A
DC_66A_n261(G-H)
DC_66A_n261A
DC_66A_n261(H-I)
DC_66A_n261A
DC_66A_n261(A-D-2O)
DC_66A_n261A
DC_66A_n261(A-2D)
DC_66A_n261A
DC_66A_n261(A-2G-2O)
DC_66A_n261A
DC_66A_n261(A-3G-O)
DC_66A_n261A
DC_66A_n261(A-4G)
DC_66A_n261A
DC_66A_n261(A-2H)
DC_66A_n261A
DC_66A_n261(A-2I)
DC_66A_n261A
DC_66A_n261(A-4O)
DC_66A_n261A
DC_66A_n261(A-7O)
DC_66A_n261A
DC_66A_n261(A-2P)
DC_66A_n261A
DC_66A_n261(A-2Q)
DC_66A_n261A
DC_71A_n257A
DC_71A_n257A
DC_71A_n258A
DC_71A_n258A
DC_71A_n260A
DC_71A_n260A
DC_71A_n261A
DC_71A_n261A
This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
37.716-21-11
|
E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) of 2 bands LTE inter-band Carrier aggregation (CA) (2 Down Link (DL) / 1 Up Link (UL)) and 1 NR band (1 DL / 1 UL)
|
TR
|
16.1.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.716-21-11/37716-21-11-g10.zip
|
The present document is a technical report for Dual Connectivity (EN-DC) of 2 bands LTE inter-band CA (2DL/1UL) and 1 NR band (1DL/1UL) under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address Dual connectivity (DC) band combinations of 3 different bands DL with 2 different bands UL (2 different LTE bands and 1 NR band) for the Rel-16 band combinations.
This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
37.716-21-21
|
E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) of x bands (x=1, 2, 3, 4) LTE inter-band Carrier aggregation (CA) (x Down Link (DL) / 1 Up Link (UL)) and 2 NR bands NR inter-band CA (2 DL / 1 UL)
|
TR
|
16.1.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.716-21-21/37716-21-21-g10.zip
|
The present document is a technical report for E-UTRA-NR Dual connectivity (DC) band combinations of LTE xDL/1UL (x=1,2,3,4) + inter-band NR 2DL/1UL under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address EN-DC band combinations of LTE xDL/1UL (x=1,2,3,4) + inter-band NR 2DL/1UL in Rel-16 as shown in Table 1-1.
Table 1-1: Release 16 EN-DC band combination of LTE xDL/1UL (x=1,2,3,4) + inter-band NR 2DL/1UL
Combination
LTE X bands (X=1,2,3,4)
NR band combinations (2 Bands)
LTE 1 Band
1
CA_n1-n78
1
CA_n3-n28
1
CA_n3-n78
1
CA_n5-n78
1
CA_n7-n78
1
CA_n8-n40
1
CA_n8-n78
1
CA_n28-n40
1
CA_n28-n77
1
CA_n28-n257
1
CA_n40-n78
1
CA_n41-n78
1
CA_n77-n78
1
CA_n3-n257
1
CA_n75-n78
1
CA_ n77-n257
1
CA_ n77-n258
1
CA_ n78-n257
1
CA_ n78-n258
1
CA_ n79-n257
1
CA_ n79-n258
2
CA_n7-n66
2
CA_n7-n78
2
CA_n41-n66
2
CA_n41-n71
2
CA_n66-n71
2
CA_n66-n78
2
CA_n5-n258
2
CA_n5-n260
2
CA_n5-n261
2
CA_n12-n258
2
CA_n12-n260
2
CA_n12-n261
2
CA_n38-n66
2
CA_n38-n78
2
CA_n41-n260
2
CA_n41-n261
2
CA_n71-n258
2
CA_n71-n260
2
CA_n71-n261
3
CA_n1-n7
3
CA_n1-n28
3
CA_n1-n40
3
CA_n1-n77
3
CA_n1-n78
3
CA_n1-n79
3
CA_n3-n77
3
CA_n3-n78
3
CA_n5-n78
3
CA_n7-n28
3
CA_n7-n78
3
CA_n8-n40
3
CA_n8-n78
3
CA_n20-n78
3
CA_n28-n40
3
CA_n28-n77
3
CA_n28-n78
3
CA_n28-n257
3
CA_n34-n258
3
CA_n40-n41
3
CA_n40-n258
3
CA_n40-n78
3
CA_n40-n79
3
CA_n41-n78
3
CA_n41-n79
3
CA_n41-n258
3
CA_n75-n78
3
CA_n77-n78
3
CA_n1-n257
3-3
CA_n1-n257
3
CA_ n77-n257
3
CA_ n77-n258
3
CA_ n78-n257
3-3
CA_n1-n78
3-3
CA_n7-n78
3-3
CA_ n78-n257
3
CA_ n78-n258
3
CA_n79-n257
3
CA_ n79-n258
5
CA_n7-n78
5
CA_ n78-n257
7
CA_n1-n3
7
CA_n1-n40
7
CA_n1-n78
7
CA_n3-n78
7
CA_n5-n78
7
CA_n7-n78
7
CA_n8-n40
7
CA_n8-n78
7
CA_n28-n40
7
CA_n28-n78
7
CA_n66-n78
7
CA_n1-n257
7-7
CA_n1-n257
7
CA_ n78-n257
7-7
CA_n1-n78
7-7
CA_n66-n78
7-7
CA_n78-n257
8
CA_n1-n78
8
CA_n3-n28
8
CA_n8-n78
8
CA_n28-n77
8
CA_n34-n258
8
CA_n40-n41
8
CA_n40-n79
8
CA_n40-n258
8
CA_n41-n79
8
CA_n41-n258
8
CA_ n77-n257
8
CA_ n78-n257
8
CA_n79-n258
11
CA_n3-n28
11
CA_ n77-n257
12
CA_n7-n66
12
CA_n7-n78
12
CA_n66-n78
13
CA_n5-n260
13
CA_n5-n48
13
CA_n7-n78
13
CA_n48-n66
18
CA_n3-n77
18
CA_n3-n78
18
CA_n3-n257
18
CA_n78-n257
19
CA_n77-n78
19
CA_n77-n257
19
CA_n78-n257
19
CA_n79-n257
20
CA_n1-n3
20
CA_n1-n7
20
CA_n1-n28
20
CA_n1-n78
20
CA_n3-n78
20
CA_n7-n28
20
CA_n7-n78
20
CA_n20-n75
20
CA_n20-n78
20
CA_n41-n78
20
CA_n75-n78
20
CA_n78-n92
21
CA_n77-n78
21
CA_n77-n257
21
CA_n78-n257
21
CA_n79-n257
28
CA_n3-n77
28
CA_n3-n78
28
CA_n5-n78
28
CA_n7-n78
28
CA_n8-n78
28
CA_n28-n78
28
CA_n3-n257
28
CA_n8-n258
28
CA_n40-n78
28
CA_n77-n257
28
CA_n78-n257
39
CA_n40-n41
39
CA_n40-n79
39
CA_n40-n258
39
CA_n41-n79
39
CA_n41-n258
39
CA_n79-n258
40
CA_n41-n79
40
CA_n41-n258
40
CA_n79-n258
41
CA_n3-n77
41
CA_n3-n78
41
CA_n3-n257
41
CA_n28-n77
41
CA_n28-n78
41
CA_n28-n257
41
CA_n77-n257
41
CA_n78-n257
41
CA_n79-n258
42
CA_n28-n77
42
CA_n77-n257
42
CA_n78-n257
42
CA_n79-n257
66
CA_n5-n48
66
CA_n7-n78
66
CA_n25-n41
66
CA_n25-n71
66
CA_n38-n66
66
CA_n38-n78
66
CA_n41-n71
66
CA_n66-n78
66
CA_n5-n258
66
CA_n5-n260
66
CA_n5-n261
66
CA_n12-n258
66
CA_n12-n260
66
CA_n12-n261
66
CA_n41-n260
66
CA_n41-n261
66
CA_n71-n258
66
CA_n71-n260
66
CA_n71-n261
66-66
CA_n7-n78
LTE 2 Bands
CA_1A-3A
CA_1A-3C
CA_n5-n78
CA_1A-3A
CA_1A-3C
CA_n7-n78
CA_1A-3A
CA_n28-n77
CA_1A-3A
CA_n28-n77(2A)
CA_1A-3A
CA_n28-n78
CA_1A-3A
CA_n38-n78
CA_1A-3A
CA_n40-n78
CA_1A-3A
CA_n41-n78
CA_1A-3A
CA_n77-n78
CA_1A-3A
CA_n77-n79
CA_1A-3A
CA_n78-n79
CA_1A-3A
CA_n28-n257
CA_1A-3A
CA_n77-n257
CA_1A-3A
CA_n78-n257
CA_1A-3A
CA_n79-n257
CA_1A-5A
CA_n78-n257
CA_1A-7A
CA_n3-n78
CA_1A-7A
CA_1A-7C
CA_n5-n78
CA_1A-7A
CA_n7-n78
CA_1A-7A
CA_1A-7C
CA_n28-n78
CA_1A-7A
CA_n78-n257
CA_1A-7A-7A
CA_n78-n257
CA_1A-8A
CA_n3-n28
CA_1A-8A
CA_n28-n77
CA_1A-8A
CA_n28-n77(2A)
CA_1A-8A
CA_n77-n257
CA_1A-8A
CA_n78-n257
CA_1A-11A
CA_n3-n28
CA_1A-11A
CA_n77-n257
CA_1A-18A
CA_n3-n77
CA_1A-18A
CA_n3-n78
CA_1A-18A
CA_n3-n257
CA_1A-18A
CA_n78-n257
CA_1A-19A
CA_n77-n79
CA_1A-19A
CA_n78-n79
CA_1A-19A
CA_n77-n257
CA_1A-19A
CA_n78-n257
CA_1A-19A
CA_n79-n257
CA_1A-20A
CA_n3-n38
CA_1A-20A
CA_n3-n78
CA_1A-20A
CA_n41-n78
CA_1A-21A
CA_n77-n78
CA_1A-21A
CA_n77-n79
CA_1A-21A
CA_n78-n79
CA_1A-21A
CA_n77-n257
CA_1A-21A
CA_n78-n257
CA_1A-21A
CA_n79-n257
CA_1A-28A
CA_n3-n77
CA_1A-28A
CA_n3-n78
CA_1A-28A
CA_n3-n257
CA_1A-28A
CA_n5-n78
CA_1A-28A
CA_n7-n78
CA_1A-28A
CA_n28-n78
CA_1A-28A
CA_n40-n78
CA_1A-28A
CA_n78-n257
CA_1A-41A
CA_1A-41C
CA_n3-n77
CA_1A-41A
CA_1A-41C
CA_n3-n78
CA_1A-41A
CA_1A-41C
CA_n28-n77
CA_1A-41A
CA_1A-41C
CA_n28-n78
CA_1A-41A
CA_1A-41C
CA_n3-n257
CA_1A-41A
CA_1A-41C
CA_n28-n257
CA_1A-41A
CA_1A-41C
CA_n77-n257
CA_1A-41A
CA_1A-41C
CA_n78-n257
CA_1A-42A
CA_1A-42C
CA_n28-n77
CA_1A-42A
CA_1A-42C
CA_n28-n77(2A)
CA_1A-42A
CA_n77-n78
CA_1A-42A
CA_n77-n79
CA_1A-42A
CA_n78-n79
CA_1A-42A
CA_1A-42C
CA_n77-n257
CA_1A-42A
CA_1A-42C
CA_n78-n257
CA_1A-42A
CA_1A-42C
CA_n79-n257
CA_2A-7A
CA_2A-7A-7A
CA_2A-7C
CA_n38-n66
CA_2A-7A
CA_2A-7A-7A
CA_2A-7C
CA_n38-n78
CA_2A-7A
CA_2A-7C
CA_n66-n78
CA_2A-7A-7A
CA_n66-n78
CA_2A-46A
CA_2A-46C
CA_2A-46D
CA_n41A-n66A
CA_2A-46A
CA_2A-46C
CA_2A-46D
CA_n41A-n71A
CA_2A-46A
CA_2A-46C
CA_2A-46D
CA_n41(2A)-n71A
CA_2A-46A
CA_2A-46C
CA_2A-46D
CA_n66A-n71A
CA_2A-66A
CA_n38-n78
CA_2A-66A
CA_n41-n71
CA_2A-66A
CA_n66-n78
CA_2A-66A
CA_n41-n260A
CA_n41-n260(2A)
CA_n41-n260(3A)
CA_n41-n260(4A)
CA_2A-66A
CA_n41-n261
CA_2A-66A
CA_n71-n261
CA_3A-3A-7A
CA_n78-n257
CA_3A-3A-7A-7A
CA_n78-n257
CA_3A-3A-8A
CA_n1-n78
CA_3A-5A
CA_n78-n257
CA_3A-7A
CA_3A-7C
CA_3C-7C
CA_n28-n78
CA_3A-7A
CA_3A-7C
CA_3C-7A
CA_3C-7C
CA_3A-3A-7A
CA_3A-7A-7A
CA_3A-3A-7A-7A
CA_n1-n78
CA_3A-7A
CA_3C-7A
CA_3A-7C
CA_3C-7C
CA_n5-n78
CA_3A-7A
CA_3A-3A-7A
DC_3C-7A
CA_n7-n78
CA_3A-7A
CA_3A-3A-7A
CA_3A-7A-7A
CA_3A-3A-7A-7A
CA_n1-n257
CA_3A-7A
CA_n78-n257
CA_3A-7A-7A
CA_n78-n257
CA_3A-8A
CA_n1-n78
CA_3A-8A
CA_n28-n77
CA_3A-8A
CA_n28-n77(2A)
CA_3A-8A
CA_n78-n257
CA_3A-18A
CA_n78-n257
CA_3A-19A
CA_n77-n78
CA_3A-19A
CA_n77-n79
CA_3A-19A
CA_n78-n79
CA_3A-19A
CA_n77-n257
CA_3A-19A
CA_n78-n257
CA_3A-19A
CA_n79-n257
CA_3A-20A
CA_3C-20A
CA_n1-n7
CA_3A-20A
CA_3C-20A
CA_n1-n28
CA_3C-20A
CA_n1-n78
CA_3A-20A
CA_3C-20A
CA_n7-n28
CA_3A-20A
CA_3C-20A
CA_n7-n78
CA_3C-20A
CA_n28-n78
CA_3A-20A
CA_n38-n78
CA_3A-20A
CA_n41-n78
CA_3A-28A
CA_n28-n78
CA_3A-28A
CA_n40-n78
CA_3A-21A
CA_n77-n78
CA_3A-21A
CA_n77-n79
CA_3A-21A
CA_n78-n79
CA_3A-21A
CA_n77-n257
CA_3A-21A
CA_n78-n257
CA_3A-21A
CA_n79-n257
CA_3A-28A
CA_3C-28A
CA_n5-n78
CA_3A-28A
CA_3C-28A
CA_3A-3A-28A
CA_n7A-n78A
CA_n7B-n78A
CA_3A-28A
CA_n77-n257
CA_3A-28A
CA_n78-n257
CA_3A-41A
CA_3A-41C
CA_n28-n77
CA_3A-41A
CA_3A-41C
CA_n28-n78
CA_3A-41A
CA_3A-41C
CA_n28-n257
CA_3A-41A
CA_3A-41C
CA_n77-n257
CA_3A-41A
CA_3A-41C
CA_n78-n257
CA_3A-42A
CA_3A-42C
CA_n28-n77
CA_3A-42A
CA_3A-42C
CA_n28-n77(2A)
CA_3A-42A
CA_n77-n78
CA_3A-42A
CA_n77-n79
CA_3A-42A
CA_n78-n79
CA_3A-42A
CA_3A-42C
CA_n77-n257
CA_3A-42A
CA_3A-42C
CA_n78-n257
CA_3A-42A
CA_3A-42C
CA_n79-n257
CA_5A-7A
CA_n78-n257
CA_5A-7A-7A
CA_n78-n257
CA_7A-7A-8A
CA_n1-n78
CA_7A-8A
CA_n1-n78
CA_7A-20A
CA_n3-n78
CA_7A-28A
CA_7C-28A
CA_n3-n78
CA_7A-28A
CA_7C-28A
CA_n5-n78
CA_7A-28A
CA_n7-n78
CA_7A-28A
CA_n28-n78
CA_7A-66A
CA_7A-7A-66A
CA_7C-66A
CA_n38-n78
CA_7A-66A
CA_7C-66A
CA_n66-n78
CA_7A-7A-66A
CA_n66-n78
CA_8A-11A
CA_n77-n257
CA_8A-42A
CA_8A-42C
CA_n28A-n77A
CA_8A-42A
CA_8A-42C
CA_n28A-n77(2A)
CA_13A-66A
CA_n5A-n48A
CA_18A-41A
CA_18A-41C
CA_n3-n77
CA_18A-41A
CA_18A-41C
CA_n3-n78
CA_18A-41A
CA_18A-41C
CA_n3-n257
CA_18A-42A
CA_18A-42C
CA_n78-n257
CA_19A-21A
CA_n77-n78
CA_19A-21A
CA_n77-n79
CA_19A-21A
CA_n78-n79
CA_19A-21A
CA_n77-n257
CA_19A-21A
CA_n78-n257
CA_19A-21A
CA_n79-n257
CA_19A-42A
CA_n77-n78
CA_19A-42A
CA_n77-n79
CA_19A-42A
CA_n78-n79
CA_19A-42A
CA_19A-42C
CA_n77-n257
CA_19A-42A
CA_19A-42C
CA_n78-n257
CA_19A-42A
CA_19A-42C
CA_n79-n257
CA_21A-42A
CA_n77-n78
CA_21A-42A
CA_n77-n79
CA_21A-42A
CA_n78-n79
CA_21A-42A
CA_21A-42C
CA_n77-n257
CA_21A-42A
CA_21A-42C
CA_n78-n257
CA_21A-42A
CA_21A-42C
CA_n79-n257
CA_28A-41A
CA_28A-41C
CA_n78-n257
CA_28A-42A
CA_28A-42C
CA_n78-n257
CA_41A-42A
CA_41A-42C
CA_41C-42A
CA_41C-42C
CA_n77-n257
CA_41A-42A
CA_41A-42C
CA_41C-42A
CA_41C-42C
CA_n78-n257
CA_46A-66A
CA_46C-66A
CA_46D-66A
CA_n25A-n41A
CA_46A-66A
CA_46C-66A
CA_46D-66A
CA_n25A-n71A
CA_46A-66A
CA_46C-66A
CA_46D-66A
CA_n41A-n71A
CA_46A-66A
CA_46C-66A
CA_46D-66A
CA_n41(2A)-n71A
LTE 3 Bands
CA_1A-3A-5A
CA_n78-n257
CA_1A-3A-7A
CA_1A-3C-7A
CA_1A-3A-7C
CA_1A-3C-7C
CA_n5-n78
CA_1A-3A-7A
CA_1A-3A-7C
CA_n28-n78
CA_1A-3A-7A
CA_n78-n257
CA_1A-3A-7A-7A
CA_n78-n257
CA_1A-3A-8A
CA_n28-n77
CA_1A-3A-8A
CA_n28-n77(2A)
CA_1A-3A-8A
CA_1A-3C-8A
CA_n78-n257
CA_1A-3A-18A
CA_n78-n257
CA_1A-3A-20A
CA_n38-n78
CA_1A-3A-20A
CA_n41-n78
CA_1A-3A-21A
CA_n77-n78
CA_1A-3A-21A
CA_n77-n79
CA_1A-3A-21A
CA_n78-n79
CA_1A-3A-21A
CA_n77-n257
CA_1A-3A-21A
CA_n78-n257
CA_1A-3A-21A
CA_n79-n257
CA_1A-3A-28A,
CA_1A-3C-28A
CA_n5-n78
CA_1A-3A-28A,
CA_1A-3C-28A
CA_n7-n78
CA_1A-3A-28A,
CA_1A-3C-28A
CA_n28-n78
CA_1A-3A-28A
CA_n40-n78
CA_1A-3A-28A
CA_n78-n257
CA_1A-3A-41A
CA_1A-3A-41C
CA_n28-n77
CA_1A-3A-41A
CA_1A-3A-41C
CA_n28-n78
CA_1A-3A-41A
CA_1A-3A-41C
CA_n28-n257
CA_1A-3A-41A
CA_1A-3A-41C
CA_n77-n257
CA_1A-3A-41A
CA_1A-3A-41C
CA_n78-n257
CA_1A-3A-42A
CA_1A-3A-42C
CA_n77-n257
CA_1A-3A-42A
CA_1A-3A-42C
CA_n78-n257
CA_1A-5A-7A
CA_n78-n257
CA_1A-5A-7A-7A
CA_n78-n257
CA_1A-7A-20A
CA_n3-n78
CA_1A-7A-28A,
CA_1A-7C-28A
CA_n5-n78
CA_1A-7A-28A
CA_n7-n78
CA_1A-7A-28A,
CA_1A-7C-28A
CA_n28-n78
CA_1A-8A-11A
CA_n3-n28
CA_1A-8A-11A
CA_n77-n257
CA_1A-8A-42A
CA_1A-8A-42C
CA_n28-n77
CA_1A-8A-42A
CA_1A-8A-42C
CA_n28-n77(2A)
CA_1A-18A-41A
CA_1A-18A-41C
CA_n3-n77
CA_1A-18A-41A
CA_1A-18A-41C
CA_n3-n78
CA_1A-18A-41A
CA_1A-18A-41C
CA_n3-n257
CA_1A-18A-42A
CA_1A-18A-42C
CA_n78-n257
CA_1A-19A-42A
CA_1A-19A-42C
CA_n77-n79
CA_1A-19A-42A
CA_1A-19A-42C
CA_n78-n79
CA_1A-19A-42A
CA_1A-19A-42C
CA_n77-n257
CA_1A-19A-42A
CA_1A-19A-42C
CA_n78-n257
CA_1A-19A-42A
CA_1A-19A-42C
CA_n79-n257
CA_1A-20A-38A
CA_n3-n78
CA_1A-21A-42A
CA_n77-n78
CA_1A-21A-42A
CA_1A-21A-42C
CA_n77-n79
CA_1A-21A-42A
CA_1A-21A-42C
CA_n78-n79
CA_1A-21A-42A
CA_1A-21A-42C
CA_n77-n257
CA_1A-21A-42A
CA_1A-21A-42C
CA_n78-n257
CA_1A-21A-42A
CA_1A-21A-42C
CA_n79-n257
CA_1A-28A-42A
CA_1A-28A-42C
CA_n78-n257
CA_1A-41A-42A
CA_1A-41A-42C
CA_1A-41C-42A
CA_1A-41C-42C
CA_n77-n257
CA_1A-41A-42A
CA_1A-41A-42C
CA_1A-41C-42A
CA_1A-41C-42C
CA_n78-n257
CA_2A-7A-66A
CA_n66-n78
CA_2A-7C-66A
CA_n66-n78
CA_2A-7A-7A-66A
CA_n66-n78
CA_2A-46A-66A
CA_2A-46C-66A
CA_2A-46D-66A
CA_n41-n71
CA_3A-3A-7A-8A
CA_3A-7A-7A-8A
CA_3A-3A-7A-7A-8A
CA_n1-n78
CA_3A-5A-7A
CA_n78-n257
CA_3A-5A-7A-7A
CA_n78-n257
CA_3A-7A-8A
CA_n1-n78
CA_3A-7A-28A,
CA_3A-7C-28A,
CA_3C-7A-28A,
CA_3C-7C-28A,
CA_n5-n78
CA_3A-7A-28A,
CA_3C-7A-28A,
CA_n7-n78
CA_3A-7A-28A,
CA_3A-7C-28A,
CA_3C-7A-28A,
CA_3C-7C-28A,
CA_n28-n78
CA_3A-18A-42A
CA_3A-18A-42C
CA_n78-n257
CA_3A-28A-41A
CA_3A-28A-41C
CA_n78-n257
CA_3A-28A-42A
CA_3A-28A-42C
CA_n78-n257
CA_3A-41A-42A
CA_3A-41A-42C
CA_3A-41C-42A
CA_3A-41C-42C
CA_n77-n257
CA_3A-41A-42A
CA_3A-41A-42C
CA_3A-41C-42A
CA_3A-41C-42C
CA_n78-n257
CA_19A-21A-42A
CA_n77-n78
CA_19A-21A-42A
CA_19A-21A-42C
CA_n77-n79
CA_19A-21A-42A
CA_19A-21A-42C
CA_n78-n79
CA_19A-21A-42A
CA_19A-21A-42C
CA_n77-n257
CA_19A-21A-42A
CA_19A-21A-42C
CA_n78-n257
CA_19A-21A-42A
CA_19A-21A-42C
CA_n79-n257
CA_28A-41A-42A
CA_28A-41A-42C
CA_28A-41C-42A
CA_28A-41C-42C
CA_n78-n257
LTE 4 Bands
CA_1A-3A-5A-7A
CA_n78-n257
CA_1A-3A-5A-7A-7A
CA_n78-n257
CA_1A-3A-7A-28A,
CA_1A-3C-7A-28A,
CA_1A-3A-7C-28A,
CA_1A-3C-7C-28A
CA_n5-n78
CA_1A-3A-7A-28A,
CA_1A-3C-7A-28A,
CA_n7-n78
CA_1A-3A-7A-28A,
CA_1A-3C-7A-28A,
CA_1A-3A-7C-28A,
CA_1A-3C-7C-28A
CA_n28-n78
CA_1A-3A-18A-42A
CA_1A-3A-18A-42C
CA_n78-n257
CA_1A-3A-28A-42A
CA_1A-3A-28A-42C
CA_n78-n257
CA_1A-3A-41A-42A
CA_1A-3A-41A-42C
CA_1A-3A-41C-42A
CA_1A-3A-41C-42C
CA_n77-n257
CA_1A-3A-41A-42A
CA_1A-3A-41A-42C
CA_1A-3A-41C-42A
CA_1A-3A-41C-42C
CA_n78-n257
CA_3A-28A-41A-42A
CA_3A-28A-41A-42C
CA_3A-28A-41C-42A
CA_3A-28A-41C-42C
CA_n78-n257
This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
37.716-31-11
|
E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) of 3 bands LTE inter-band Carrier aggregation (CA) (3 Down Link (DL) / 1 Up Link (UL)) and 1 NR band (1 DL / 1 UL)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.716-31-11/37716-31-11-g00.zip
|
The present document is a technical report for Dual Connectivity (EN-DC) of 3 LTE bands (3DL/1UL) and 1 NR band (1DL/1UL) under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address Dual Connectivity (EN-DC) of 3 LTE band (3DL/1UL) and 1 NR band (1DL/1UL)for the Rel-16 band combinations in Table 1-1. The co-existence analysis and RF front end requirements such as Delta RIB,C and TIB,C are described based on the band combination basis since such information have no difference between the EN-DC configulations consisting with the same E-UTRA band and the same NR band.
Table 1-1: Release 16 EN-DC of 3 LTE band (3DL/1UL) and 1 NR band (1DL/1UL), old request format
EN-DC configuration
REL-indep.
from
DL_1A-3A-5A_n79A_UL_1A_n79A
Rel-15
DL_1A-3A-5A_n79A_UL_3A_n79A
Rel-15
DL_1A-3A-5A_n79A_UL_5A_n79A
Rel-15
DL_1A-3A-41A_n79A_UL_1A_n79A
Rel-15
DL_1A-3A-41A_n79A_UL_3A_n79A
Rel-15
DL_1A-3A-41A_n79A_UL_41A_n79A
Rel-15
DL_1A-5A-41A_n79A_UL_1A_n79A
Rel-15
DL_1A-5A-41A_n79A_UL_5A_n79A
Rel-15
DL_1A-5A-41A_n79A_UL_41A_n79A
Rel-15
DL_3A-5A-41A_n79A_UL_3A_n79A
Rel-15
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DL_1A-3A-42C_n257M_UL_1A_n257M
Rel-15
DL_1A-3A-42D_n257M_UL_1A_n257M
Rel-15
DL_1A-3A-42D_n77A_UL_3A_n77A
Rel-15
DL_1A-3A-42D_n78A_UL_3A_n78A
Rel-15
DL_1A-3A-42D_n79A_UL_3A_n79A
Rel-15
DL_1A-3A-42D_n257M_UL_3A_n257M
Rel-15
DL_1A-21A-42C_n77(2A)_UL_1A_n77A
Rel-15
DL_19A-21A-42C_n77(2A)_UL_19A_n77A
Rel-15
DL_1A-8A-11A_n77A_UL_1A_n77A
Rel-15
DL_1A-8A-11A_n77A_UL_8A_n77A
Rel-15
DL_1A-8A-11A_n77A_UL_11A_n77A
Rel-15
DL_1A-8A-11A_n78A_UL_1A_n78A
Rel-15
DL_1A-8A-11A_n78A_UL_8A_n78A
Rel-15
DL_1A-8A-11A_n78A_UL_11A_n78A
Rel-15
DL_1A-8A-11A_n257A_UL_1A_n257A
Rel-15
DL_1A-8A-11A_n257A_UL_8A_n257A
Rel-15
DL_1A-8A-11A_n257A_UL_11A_n257A
Rel-15
DL_1A-8A-11A_n257D_UL_1A_n257A
Rel-15
DL_1A-8A-11A_n257D_UL_8A_n257A
Rel-15
DL_1A-8A-11A_n257D_UL_11A_n257A
Rel-15
NOTE 1: Non-contiguous allocation is assumed for 42_n77 and for 42_n78
Table 1-2: Release 16 EN-DC of 3 LTE band (3DL/1UL) and 1 NR band (1DL/1UL), new request format
EN-DC configuration
UL configuration
DC_2A-12A-30A_n260M
2A_n260M
12A_n260M
30A_n260M
DC_2A-12A-66A_n260M
2A_n260M
12A_n260M
66A_n260M
DC_12A-30A-66A_n260M
12A_n260M
30A_n260M
66A_n260M
DC_2A-30A-66A_n260M
2A_n260M
30A_n260M
66A_n260M
DC_2A-29A-30A_n260M
2A_n260M
30A_n260M
DC_2A-2A-12A-30A_n260M
2A_n260M
12A_n260M
30A_260M
DC_12A-30A-66A-66A_n260M
12A_n260M
30A_n260M
66A_n260M
DC_2A-12A-66A-66A_n260M
2A_n260M
12A_n260M
66A_n260M
DC_2A-2A-12A-66A_n260M
2A_n260M
12A_n260M
66A_n260M
DC_2A-5A-66A_n5A
CA_2A_n5A
CA_5A_n5A
CA_66A_n5A
DC_2A-5A-66A_n66A
CA_2A_n66
CA_5A_n66
CA_66A_n66
DC_2A-13A-66A_n66A
CA_2A_n66A
CA_13A_n66A
CA_66A_n66A
DC_3A-7A-40A_n1A
DC_3A_n1A
DC_7A_n1A
DC_40A_n1A
DC_1A-8A-42A_n77A
DC_1A_n77A
DC_1A-8A-42A_n77A
DC_8A_n77A
DC_1A-8A-42C_n77A
DC_1A_n77A
DC_1A-8A-42C_n77A
DC_8A_n77A
DC_3A-8A-42A_n77A
DC_3A_n77A
DC_3A-8A-42A_n77A
DC_8A_n77A
DC_3A-8A-42C_n77A
DC_3A_n77A
DC_3A-8A-42C_n77A
DC_8A_n77A
DC_3A-7A-8A_n1A
DC_3A_n1A
DC_3A-7A-8A_n1A
DC_7A_n1A
DC_3A-7A-8A_n1A
DC_8A_n1A
DC_2A-14A-30A_n260M
DC_2A_n260M
DC_14A_n260M
DC_30A_n260M
DC_2A-14A-66A_n260M
DC_2A_n260M
DC_14A_n260M
DC_66A_n260M
DC_14A-30A-66A_n260M
DC_14A_n260M
DC_30A_n260M
DC_66A_n260M
DC_2A-46D-66A_n260M
DC_2A_n260M
DC_46D_n260M
DC_66A_n260M
DC_2A-12A-30A_n66A
DC_2A_n260M
DC_12A_n260M
DC_30A_n260M
DC_2A-12A-66A_n66A
DC_2A_n260M
DC_12A_n260M
DC_66A_n260M
DC_12A-30A-66A_n66A
DC_12A_n260M
DC_30A_n260M
DC_66A_n260M
DC_12A-30A-66A_n2A
DC_12A_n2A
DC_30A_n2A
DC_66A_n22A
DC_2A-12A-30A_n2A
DC_2A_n2A
DC_12A_n2A
DC_30A_n22A
DC_2A-12A-66A_n2A
DC_2A_n2A
DC_12A_n2A
DC_66A_n2A
DC_14A-30A-66A-66A_n260M
DC_14A_n260M
DC_30A_n260M
DC_66A_n260M
DC_2A-14A-66A-66A_n260M
DC_2A_n260M
DC_14A_n260M
DC_66A_n260M
DC_2A-2A-12A-30A_n66A
DC_2A_n66A
DC_12A_n66A
DC_30A_n66A
DC_2A-2A-14A-66A_n260M
DC_2A_n260M
DC_14A_n260M
DC_66A_n260M
DC_2A-2A-12A-66A_n66A
DC_2A_n66A
DC_12A_n66A
DC_66A_n66A
DC_12A-30A-66A-66A_n2A
DC_12A_n2A
DC_30A_n2A
DC_66A_n22A
DC_2A-12A-66A-66A_n2A
DC_2A_n2A
DC_12A_n2A
DC_66A_n2A
DC_2A-7A-66A_n5A
DC_2A_n5A
DC_7A_n5A
DC_66A_n5A
DC_2A-7A-7A-66A_n5A
DC_2A_n5A
DC_7A_n5A
DC_66A_n5A
DC_2A-7C-66A_n5A
DC_2A_n5A
DC_7A_n5A
DC_66A_n5A
DC_2A-7A-66A-66A_n5A
DC_2A_n5A
DC_7A_n5A
DC_66A_n5A
DC_2A-7A-7A-66A-66A_n5A
DC_2A_n5A
DC_7A_n5A
DC_66A_n5A
DC_2A-7C-66A-66A_n5A
DC_2A_n5A
DC_7A_n5A
DC_66A_n5A
DC_2A-5A-7A_n66A
DC_2A_n66A
DC_5A_n66A
DC_7A_n66A
DC_2A-5A-7A-7A_n66A
DC_2A_n66A
DC_5A_n66A
DC_7A_n66A
DC_2A-5A-7C_n66A
DC_2A_n66A
DC_5A_n66A
DC_7A_n66A
DC_2A-13A-7A_n66A
DC_2A_n66A
DC_13A_n66A
DC_7A_n66A
DC_2A-13A-7A-7A_n66A
DC_2A_n66A
DC_13A_n66A
DC_7A_n66A
DC_2A-13A-7C_n66A
DC_2A_n66A
DC_13A_n66A
DC_7A_n66A
DC_2A-7A-66A_n66A
DC_2A_n66A
DC_7A_n66A
DC_66A_n66A
DC_2A-7A-7A-66A_n66A
DC_2A_n566A
DC_7A_n66A
DC_66A_n66A
DC_2A-7C-66A_n66A
DC_2A_n66A
DC_7A_n66A
DC_66A_n66A
DC_2A-7A-66A_n78(2A)
DC_2A_n78A
DC_7A_n78A
DC_66A_n78A
DC_2A-7A-7A-66A_n78(2A)
DC_2A_n78A
DC_7A_n78A
DC_66A_n78A
DC_2A-7C-66A_n78(2A)
DC_2A_n78A
DC_7A_n78A
DC_66A_n78A
DC_2A-7A-66A-66A_n78(2A)
DC_2A_n78A
DC_7A_n78A
DC_66A_n78A
DC_2A-7A-7A-66A-66A_n78(2A)
DC_2A_n78A
DC_7A_n78A
DC_66A_n78A
DC_2A-7C-66A-66A_n78(2A)
DC_2A_n78A
DC_7A_n78A
DC_66A_n78A
DC_2A-48A-66A_n71A
DC_2A_n71A
DC_48A_n71A
DC_66A_n71A
DC_12A-48A-66A_n71A
DC_12A_n71A
DC_48A_n71A
DC_66A_n71A
DC_2A-12A-48A_n71A
DC_2A_n71A
DC_12A_n71A
DC_48A_n71A
DC_2A-12A-66A_n71A
DC_2A_n71A
DC_12A_n71A
DC_66A_n71A
DC_5A-48A-66A_n71A
DC_5A_n71A
DC_48A_n71A
DC_66A_n71A
DC_2A-5A-48A_n71A
DC_2A_n71A
DC_5A_n71A
DC_48A_n71A
DC_2A-5A-66A_n71A
DC_2A_n71A
DC_5A_n71A
DC_66A_n71A
DC_5A-12A-48A_n71A
DC_5A_n71A
DC_12A_n71A
DC_48A_n71A
DC_5A-12A-66A_n71A
DC_5A_n71A
DC_12A_n71A
DC_66A_n71A
DC_2A_5A-12A_n71A
DC_2A_n71A
DC_5A_n71A
DC_12A_n71A
DC_2A-48A-66A_n12A
DC_2A_n12A
DC_48A_n12A
DC_66A_n12A
DC_12A-48A-66A_n12A
DC_(n)12AA
DC_48A_n12A
DC_66A_n12A
DC_2A-12A-48A_n12A
DC_2A_n12A
DC_(n)12AA
DC_48A_n12A
DC_2A-12A-66A_n12A
DC_2A_n12A
DC_(n)12AA
DC_66A_n12A
DC_5A-48A-66A_n12A
DC_5A_n12A
DC_48A_n12A
DC_66A_n12A
DC_2A-5A-48A_n12A
DC_2A_n12A
DC_5A_n12A
DC_48A_n12A
DC_2A-5A-66A_n12A
DC_2A_n12A
DC_5A_n12A
DC_66A_n12A
DC_5A-12A-48A_n12A
DC_5A_n12A
DC_48A_n12A
DC_(n)12AA
DC_5A-12A-66A_n12A
DC_5A_n12A
DC_(n)12AA
DC_66A_n12A
DC_2A-5A-12A_n12A
DC_5A_n12A
DC_2A_n12A
DC_(n)12AA
DC_2A-48A-66A_n5A
DC_2A_n5A
DC_48A_n5A
DC_66A_n5A
DC_12A-48A-66A_n5A
DC_12A_n5A
DC_48A_n5A
DC_66A_n5A
DC_2A-12A-48A_n5A
DC_2A_n5A
DC_12A_n5A
DC_48A_n5A
DC_2A-12A-66A_n5A
DC_2A_n5A
DC_12A_n5A
DC_66A_n5A
DC_2A-5A-48A_n5A
DC_2A_n5A
DC_(n)5AA
DC_48A_n5A
DC_2A-5A-66A_n5A
DC_2A_n5A
DC_5A_n5A
DC_66A_n5A
DC_5A-12A-48A_n5A
DC_(n)5AA
DC_12A_n5A
DC_48A_n5A
DC_5A-12A-66A_n5A
DC_(n)5AA
DC_12A_n5A
DC_66A_n5A
DC_5A-2A-12A_n5A
DC_2A_n5A
DC_(n)5AA
DC_12A_n5A
DC_1A-3A-7C_n28A
DC_7A_n28A
DC_1A-3C-7C_n28A
DC_7A_n28A
DC_2A-46A-66A_n261A
DC_2A_n261A
DC_2A-46A-66A_n261A
DC_66A_n261A
DC_2A-46C-66A_n261A
DC_2A_n261A
DC_2A-46C-66A_n261A
DC_66A_n261A
DC_2A-46D-66A_n261A
DC_2A_n261A
DC_2A-46D-66A_n261A
DC_66A_n261A
DC_2A-46A-66A_n261(2A)
DC_2A_n261A
DC_2A-46A-66A_n261(2A)
DC_66A_n261A
DC_2A-46C-66A_n261(2A)
DC_2A_n261A
DC_2A-46C-66A_n261(2A)
DC_66A_n261A
DC_2A-46D-66A_n261(2A)
DC_2A_n261A
DC_2A-46D-66A_n261(2A)
DC_66A_n261A
DC_2A-46E-48A_n5A
DC_2A_n5A
DC_46A_n5A
DC_48A_n5A
DC_2A-46D-48A_n5A
DC_2A_n5A
DC_46A_n5A
DC_48A_n5A
DC_2A-46C-48A_n5A
DC_2A_n5A
DC_46A_n5A
DC_48A_n5A
DC_2A-46A-48A_n5A
DC_2A_n5A
DC_46A_n5A
DC_48A_n5A
DC_2A-46E-48A_n66A
DC_2A_n66A
DC_46A_n66A
DC_48A_n66A
DC_2A-46D-48A_n66A
DC_2A_n66A
DC_46A_n66A
DC_48A_n66A
DC_2A-46C-48A_n66A
DC_2A_n66A
DC_46A_n66A
DC_48A_n66A
DC_2A-46A-48A_n66A
DC_2A_n66A
DC_46A_n66A
DC_48A_n66A
DC_3A-19A-42A_n257G
DC_3A-19A-42A_n257H
DC_3A-19A-42A_n257I
DC_3A-19A-42C_n257G
DC_3A-19A-42C_n257H
DC_3A-19A-42C_n257I
DC_3A_n257A
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_19A-21A-42A_n257G
DC_19A-21A-42A_n257H
DC_19A-21A-42A_n257I
DC_19A-21A-42C_n257G
DC_19A-21A-42C_n257H
DC_19A-21A-42C_n257I
DC_21A_n257A
DC_21A_n257G
DC_21A_n257H
DC_21A_n257I
DC_2A-46E-48A_n5A
DC_2A_n5A
DC_46A_n5A
DC_48A_n5A
DC_2A-46D-48A_n5A
DC_2A_n5A
DC_46A_n5A
DC_48A_n5A
DC_2A-46C-48A_n5A
DC_2A_n5A
DC_46A_n5A
DC_48A_n5A
DC_2A-46A-48A_n5A
DC_2A_n5A
DC_46A_n5A
DC_48A_n5A
DC_2A-46E-48A_n66A
DC_2A_n66A
DC_46A_n66A
DC_48A_n66A
DC_2A-46D-48A_n66A
DC_2A_n66A
DC_46A_n66A
DC_48A_n66A
DC_2A-46C-48A_n66A
DC_2A_n66A
DC_46A_n66A
DC_48A_n66A
DC_2A-46A-48A_n66A
DC_2A_n66A
DC_46A_n66A
DC_48A_n66A
DC_3A-19A-42A_n257G
DC_3A-19A-42A_n257H
DC_3A-19A-42A_n257I
DC_3A-19A-42C_n257G
DC_3A-19A-42C_n257H
DC_3A-19A-42C_n257I
DC_3A_n257A
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_19A-21A-42A_n257G
DC_19A-21A-42A_n257H
DC_19A-21A-42A_n257I
DC_19A-21A-42C_n257G
DC_19A-21A-42C_n257H
DC_19A-21A-42C_n257I
DC_21A_n257A
DC_21A_n257G
DC_21A_n257H
DC_21A_n257I
DC_3A-7A-20A_n1A
DC_3A_n1A
DC_7A_n1A
DC_20A_n1A
DC_3C-7A-20A_n1A
DC_3C_n1A
DC_7A_n1A
DC_20A_n1A
DC_3A-7A-28A_n7A
DC_3A_n7A
DC_7A_n7A
DC_28A_n7A
DC_1A-3A-7A_n7A
DC_1A_n7A
DC_3A_n7A
DC_7A_n7A
DC_1A-3A-28A_n7A
DC_1A_n7A
DC_3A_n7A
DC_28A_n7A
DC_1A-7A-28A_n7A
DC_1A_n7A
DC_7A_n7A
DC_28A_n7A
DC_3C-7A-28A_n7A
DC_3A_n7A
DC_3C_n7A
DC_7A_n7A
DC_28A_n7A
DC_1A-3C-28A_n7A
DC_1A_n7A
DC_3A_n7A
DC_3C_n7A
DC_28A_n7A
DC_1A-3C-7A_n7A
DC_1A_n7A
DC_3A_n7A
DC_3C_n7A
DC_7A_n7A
DC_1A-3A-3A-7A_n7A
DC_1A_n7A
DC_3A_n7A
DC_7A_n7A
DC_1A-3A-3A-28A_n7A
DC_1A_n7A
DC_3A_n7A
DC_28A_n7A
DC_3A-3A-7A-28A_n7A
DC_3A_n7A
DC_7A_n7A
DC_28A_n7A
DC_1A-1A-3A-7A_n7A
DC_1A_n7A
DC_3A_n7A
DC_7A_n7A
DC_1A-1A-3C-7A_n7A
DC_1A_n7A
DC_3A_n7A
DC_3C_n7A
DC_7A_n7A
DC_1A-1A-3A-28A_n7A
DC_1A_n7A
DC_3A_n7A
DC_28A_n7A
DC_1A-1A-7A-28A_n7A
DC_1A_n7A
DC_7A_n7A
DC_28A_n7A
DC_1A-1A-3C-28A_n7A
DC_1A_n7A
DC_3A_n7A
DC_3C_n7A
DC_28A_n7A
DC_1A-1A-3A-3A-28A_n7A
DC_1A_n7A
DC_3A_n7A
DC_28A_n7A
DC_1A-3A-28A_n7B
DC_1A_n7A
DC_1A_n7B
DC_3A_n7A
DC_3A_n7B
DC_28A_n7A
DC_28A_n7B
DC_1A-3C-28A_n7B
DC_1A_n7A
DC_1A_n7B
DC_3A_n7A
DC_3A_n7B
DC_28A_n7A
DC_28A_n7B
DC_3C_n7A
DC_3C_n7B
DC_1A-3A-3A-28A_n7B
DC_1A_n7A
DC_1A_n7B
DC_3A_n7A
DC_3A_n7B
DC_28A_n7A
DC_28A_n7B
DC_1A-1A-3A-28A_n7B
DC_1A_n7A
DC_1A_n7B
DC_3A_n7A
DC_3A_n7B
DC_28A_n7A
DC_28A_n7B
DC_1A-1A-3C-28A_n7B
DC_1A_n7A
DC_1A_n7B
DC_3A_n7A
DC_3A_n7B
DC_28A_n7A
DC_28A_n7B
DC_3C_n7A
DC_3C_n7B
DC_1A-1A-3A-3A-28A_n7B
DC_1A_n7A
DC_1A_n7B
DC_3A_n7A
DC_3A_n7B
DC_28A_n7A
DC_28A_n7B
DC_2A-13A-66A_n260M
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260L
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260K
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260(2A-2G)
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260(2H)
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260(6A)
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260J
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260(A-2G)
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260(3A-G)
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260(G-H)
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260(5A)
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260I
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260(2G)
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260(4A)
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260(2A-G)
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260(A-H)
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260H
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260(A-G)
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260(3A)
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260G
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260(2A)
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n260A
DC_2A_n260A
DC_13A_n260A
DC_66A_n260A
DC_2A-13A-66A_n261M
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(A-G-I)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(H-I)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261L
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(A-G-H)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(G-I)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(2H)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261K
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(2A-I)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(G-H)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261J
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(2A-H)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(A-2G)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(A-I)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(2G)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261I
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(A-H)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(2A-G)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261H
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(A-G)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(3A)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261G
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(2A)
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261A
DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(A-K)
New: DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(G-J)
New: DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(A-J)
New: DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(3A-G)
New: DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_2A-13A-66A_n261(4A)
New: DC_2A_n261A
DC_13A_n261A
DC_66A_n261A
DC_1A-3A-20A_n38A
DC_3A_n38A
DC_1A-3A-20A_n38A
DC_20A_n38A
DC_1A-20A-38A_n78A
DC_1A_n78A
DC_3A-20A-38A_n78A
DC_3A_n78A
DC_1A-7A-20A_n3A
DC_1A_n3A
DC_1A-7A-20A_n3A
DC_20A_n3A
DC_3C-7A-20A_n1A
DC_3A_n1A
DC_1A-3A-7C_n28A
DC_7A_n28A
DC_1A-3A-7C_n78A
DC_7A_n78A
DC_1A-3C-7C_n28A
DC_7A_n28A
DC_1A-3C-7C_n78A
DC_7A_n78A
DC_1A-3A-7A_n78(2A)
DC_1A_n78A
DC_3A_n78A
DC_7A_n78A
DC_1A_n78(2A)
DC_3A_n78(2A)
DC_7A_n78(2A)
DC_1A-3A-7C_n78(2A)
DC_1A_n78A
DC_3A_n78A
DC_7A_n78A
DC_7C_n78A
DC_1A_n78(2A)
DC_3A_n78(2A)
DC_7A_n78(2A)
DC_7C_n78(2A)
DC_1A-3C-7A_n78(2A)
DC_1A_n78A
DC_3A_n78A
DC_7A_n78A
DC_1A_n78(2A)
DC_3A_n78(2A)
DC_7A_n78(2A)
DC_1A-3C-7C_n78(2A)
DC_1A_n78A
DC_3A_n78A
DC_7A_n78A
DC_7C_n78A
DC_1A_n78(2A)
DC_3A_n78(2A)
DC_7A_n78(2A)
DC_7C_n78(2A)
DC_2A-29A-66A_n260M
DC_2A_n260M
DC_66A_n260M
DC_29A-30A-66A_n260M
DC_30A_n260M
DC_66A_n260M
DC_2A-2A-5A-30A_n260M
DC_2A_n260M
DC_5A_n260M
DC_30A_n260M
DC_5A-30A-66A-66A_n260M
DC_5A_n260M
DC_30A_n260M
DC_66A_n260M
DC_2A-5A-66A-66A_n260M
DC_2A_n260M
DC_5A_n260M
DC_66A_n260M
DC_2A-2A-5A-66A_n260M
DC_2A_n260M
DC_5A_n260M
DC_66A_n260M
DC_2A-2A-29A-30A_n260M
DC_2A_n260M
DC_30A_n260M
DC_2A-2A-12A-66A-66A_n260M
DC_2A_n260M
DC_12A_n260M
DC_66A_n260M
DC_2A-2A-5A-66A-66A_n260M
DC_2A_n260M
DC_5A_n260M
DC_66A_n260M
DC_2A-2A-14A-66A-66A_n260M
DC_2A_n260M
DC_14A_n260M
DC_66A_n260M
DC_2A-46D-66A_n5A
DC_2A_n5A
DC_46D_n5A
DC_66A_n5A
DC_2A-5A-30A_n66A
DC_2A_n66A
DC_5A_n66A
DC_30A_n66A
DC_2A-5A-66A_n66A
DC_2A_n66A
DC_5A_n66A
DC_66A_n66A
DC_5A-30A-66A_n66A
DC_5A_n66A
DC_30A_n66A
DC_66A_n66A_
DC_5A-30A-66A_n2A
DC_5A_n2A
DC_30A_n2A
DC_66A_n2A
DC_2A-5A-30A_n2A
DC_2A_n2A
DC_5A_n2A
DC_30A_n2A
DC_2A-5A-66A_n2A
DC_2A_n2A
DC_5A_n2A
DC_66A_n2A
DC_2A-2A-5A-30A_n66A
DC_2A_n66A
DC_5A_n66A
DC_30A_n66A
DC_2A-2A-5A-66A_n66A
DC_2A_n66A
DC_5A_n66A
DC_66A_n66A
DC_5A-30A-66A-66A_n2A
DC_5A_n2A
DC_30A_n2A
DC_66A_n2A
DC_2A-5A-66A-66A_n2A
DC_2a_n2A
DC_5A_n2A
DC_66A_n2A
DC_7A-13A-66A_n66A
DC_7A_n66A
DC_13A_n66A
DC_66A_n66A
DC_7C-13A-66A_n66A
DC_7A_n66A
DC_13A_n66A
DC_66A_n66A
DC_1A-7A-8A_n78A
DC_1A_n78A
DC_7A_n78A
DC_8A_n78A
DC_2A-7A-66A_n38A
DC_2A_n38A
DC_7A_n38A
DC_66A_n38A
DC_2A-66A-71A_n38A
DC_2A_n38A
DC_66A_n38A
DC_71A_n38A
DC_2A-2A-7A-66A_n38A
DC_2A_n38A
DC_7A_n38A
DC_66A_n38A
DC_2A-2A-66A-71A_n38A
DC_2A_n38A
DC_66A_n38A
DC_71A_n38A
DC_2A-7A-66A_n71A
DC_2A_n71A
DC_7A_n71A
DC_66A_n71A
DC_2A-66A-71A_n66A
DC_2A_n66A
DC_66A_n66A
DC_71A_n66A
DC_2A-66A-71A_n78A
DC_2A_n78A
DC_66A_n78A
DC_71A_n78A
DC_2A-2A-66A-71A_n78A
DC_2A_n78A
DC_66A_n78A
DC_71A_n78A
DC_1A-3A-20A_n38A
DC_3A_n38A
DC_1A-3A-20A_n38A
DC_20A_n38A
DC_1A-20A-38A_n78A
DC_1A_n78A
DC_3A-20A-38A_n78A
DC_3A_n78A
DC_1A-7A-20A_n3A
DC_1A_n3A
DC_1A-7A-20A_n3A
DC_20A_n3A
DC_3A-3A-7A-8A_n1A
DC_3A_n1A
DC_3A-3A-7A-8A_n1A
DC_7A_n1A
DC_3A-3A-7A-8A_n1A
DC_8A_n1A
DC_3A-7A-7A-8A_n1A
DC_3A_n1A
DC_3A-7A-7A-8A_n1A
DC_7A_n1A
DC_3A-7A-7A-8A_n1A
DC_8A_n1A
DC_3A-3A-7A-7A-8A_n1A
DC_3A_n1A
DC_3A-3A-7A-7A-8A_n1A
DC_7A_n1A
DC_3A-3A-7A-7A-8A_n1A
DC_8A_n1A
DC_3A-3A-7A-8A_n78A
DC_3A_n78A
DC_3A-3A-7A-8A_n78A
DC_7A_n78A
DC_3A-3A-7A-8A_n78A
DC_8A_n78A
DC_3A-7A-7A-8A_n78A
DC_3A_n78A
DC_3A-7A-7A-8A_n78A
DC_7A_n78A
DC_3A-7A-7A-8A_n78A
DC_8A_n78A
DC_3A-3A-7A-7A-8A_n78A
DC_3A_n78A
DC_3A-3A-7A-7A-8A_n78A
DC_7A_n78A
DC_3A-3A-7A-7A-8A_n78A
DC_8A_n78A
DC_1A-3A-19A_n257G
DC_1A-3A-19A_n257H
DC_1A-3A-19A_n257I
DC_1A_n257A
DC_1A_n257G
DC_1A_n257H
DC_1A_n257I
DC_19A_n257A
DC_19A_n257G
DC_19A_n257H
DC_19A_n257I
DC_1A-3A-21A_n257G
DC_1A-3A-21A_n257H
DC_1A-3A-21A_n257I
DC_1A_n257A
DC_1A_n257G
DC_1A_n257H
DC_1A_n257I
DC_21A_n257A
DC_21A_n257G
DC_21A_n257H
DC_21A_n257I
DC_1A-3A-42A_n257G
DC_1A-3A-42A_n257H
DC_1A-3A-42A_n257I
DC_1A-3A-42C_n257G
DC_1A-3A-42C_n257H
DC_1A-3A-42C_n257I
DC_1A-3A-42D_n257G
DC_1A-3A-42D_n257H
DC_1A-3A-42D_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_1A-19A-21A_n257G
DC_1A-19A-21A_n257H
DC_1A-19A-21A_n257I
DC_19A_n257A
DC_19A_n257G
DC_19A_n257H
DC_19A_n257I
DC_1A-19A-42A_n257G
DC_1A-19A-42A_n257H
DC_1A-19A-42A_n257I
DC_1A-19A-42C_n257G
DC_1A-19A-42C_n257H
DC_1A-19A-42C_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_1A-21A-42A_n257G
DC_1A-21A-42A_n257H
DC_1A-21A-42A_n257I
DC_1A-21A-42C_n257G
DC_1A-21A-42C_n257H
DC_1A-21A-42C_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_1A-3A-41A_n257G
DC_1A-3A-41A_n257H
DC_1A-3A-41A_n257I
DC_1A_n257A
DC_1A_n257G
DC_1A_n257H
DC_1A_n257I
DC_3A_n257A
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_1A-3A-41C_n257G
DC_1A-3A-41C_n257H
DC_1A-3A-41C_n257I
DC_1A_n257A
DC_1A_n257G
DC_1A_n257H
DC_1A_n257I
DC_3A_n257A
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_1A-3A-42A_n257G
DC_1A-3A-42A_n257H
DC_1A-3A-42A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_1A-3A-42C_n257G
DC_1A-3A-42C_n257H
DC_1A-3A-42C_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_1A-41A-42A_n257G
DC_1A-41A-42A_n257H
DC_1A-41A-42A_n257I
DC_1A_n257A
DC_1A_n257G
DC_1A_n257H
DC_1A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_1A-41A-42C_n257G
DC_1A-41A-42C_n257H
DC_1A-41A-42C_n257I
DC_1A_n257A
DC_1A_n257G
DC_1A_n257H
DC_1A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_1A-41C-42A_n257G
DC_1A-41C-42A_n257H
DC_1A-41C-42A_n257I
DC_1A_n257A
DC_1A_n257G
DC_1A_n257H
DC_1A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_1A-41C-42C_n257G
DC_1A-41C-42C_n257H
DC_1A-41C-42C_n257I
DC_1A_n257A
DC_1A_n257G
DC_1A_n257H
DC_1A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_3A-41A-42A_n257G
DC_3A-41A-42A_n257H
DC_3A-41A-42A_n257I
DC_3A_n257A
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_3A-41A-42C_n257G
DC_3A-41A-42C_n257H
DC_3A-41A-42C_n257I
DC_3A_n257A
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_3A-41C-42A_n257G
DC_3A-41C-42A_n257H
DC_3A-41C-42A_n257I
DC_3A_n257A
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_3A-41C-42C_n257G
DC_3A-41C-42C_n257H
DC_3A-41C-42C_n257I
DC_3A_n257A
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_1A-3A-18A_n257G
DC_1A-3A-18A_n257H
DC_1A-3A-18A_n257I
DC_1A_n257A
DC_1A_n257G
DC_1A_n257H
DC_1A_n257I
DC_3A_n257A
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_18A_n257A
DC_18A_n257G
DC_18A_n257H
DC_18A_n257I
DC_1A-18A-42A_n257G
DC_1A-18A-42A_n257H
DC_1A-18A-42A_n257I
DC_1A_n257A
DC_1A_n257G
DC_1A_n257H
DC_1A_n257I
DC_18A_n257A
DC_18A_n257G
DC_18A_n257H
DC_18A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_1A-18A-42C_n257G
DC_1A-18A-42C_n257H
DC_1A-18A-42C_n257I
DC_1A_n257A
DC_1A_n257G
DC_1A_n257H
DC_1A_n257I
DC_18A_n257A
DC_18A_n257G
DC_18A_n257H
DC_18A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_3A-18A-42A_n257G
DC_3A-18A-42A_n257H
DC_3A-18A-42A_n257I
DC_3A_n257A
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_18A_n257A
DC_18A_n257G
DC_18A_n257H
DC_18A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_3A-18A-42C_n257G
DC_3A-18A-42C_n257H
DC_3A-18A-42C_n257I
DC_3A_n257A
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_18A_n257A
DC_18A_n257G
DC_18A_n257H
DC_18A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_3A-28A-41A_n78A
DC_3A_n78A
DC_28A_n78A DC_41A_n78A
DC_3A-28A-41C_n78A
DC_3A_n78A
DC_28A_n78A DC_41A_n78A
DC_28A-41A-42A_n78A
DC_28A_n78A
DC_41A_n78A DC_42A_n78A
DC_28A-41A-42C_n78A
DC_28A_n78A
DC_41A_n78A DC_42A_n78A
DC_28A-41C-42A_n78A
DC_28A_n78A
DC_41A_n78A DC_42A_n78A
DC_28A-41C-42C_n78A
DC_28A_n78A
DC_41A_n78A DC_42A_n78A
DC_3A-28A-41A_n257A
DC_3A-28A-41A_n257G
DC_3A-28A-41A_n257H
DC_3A-28A-41A_n257I
DC_3A_n257A
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_28A_n257A
DC_28A_n257G
DC_28A_n257H
DC_28A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_3A-28A-41C_n257A
DC_3A-28A-41C_n257G
DC_3A-28A-41C_n257H
DC_3A-28A-41C_n257I
DC_3A_n257A
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_28A_n257A
DC_28A_n257G
DC_28A_n257H
DC_28A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_3A-28A-42A_n257G
DC_3A-28A-42A_n257H
DC_3A-28A-42A_n257I
DC_3A_n257A
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_28A_n257A
DC_28A_n257G
DC_28A_n257H
DC_28A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_3A-28A-42C_n257G
DC_3A-28A-42C_n257H
DC_3A-28A-42C_n257I
DC_3A_n257A
DC_3A_n257G
DC_3A_n257H
DC_3A_n257I
DC_28A_n257A
DC_28A_n257G
DC_28A_n257H
DC_28A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_28A-41A-42A_n257A
DC_28A-41A-42A_n257G
DC_28A-41A-42A_n257H
DC_28A-41A-42A_n257I
DC_28A_n257A
DC_28A_n257G
DC_28A_n257H
DC_28A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_28A-41A-42C_n257A
DC_28A-41A-42C_n257G
DC_28A-41A-42C_n257H
DC_28A-41A-42C_n257I
DC_28A_n257A
DC_28A_n257G
DC_28A_n257H
DC_28A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_28A-41C-42A_n257A
DC_28A-41C-42A_n257G
DC_28A-41C-42A_n257H
DC_28A-41C-42A_n257I
DC_28A_n257A
DC_28A_n257G
DC_28A_n257H
DC_28A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_28A-41C-42C_n257A
DC_28A-41C-42C_n257G
DC_28A-41C-42C_n257H
DC_28A-41C-42C_n257I
DC_28A_n257A
DC_28A_n257G
DC_28A_n257H
DC_28A_n257I
DC_41A_n257A
DC_41A_n257G
DC_41A_n257H
DC_41A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_1A-3A-28A_n257G
DC_1A-3A-28A_n257H
DC_1A-3A-28A_n257I
DC_1A_n257A
DC_1A_n257G
DC_1A_n257H
DC_1A_n257I
DC_28A_n257A
DC_28A_n257G
DC_28A_n257H
DC_28A_n257I
DC_1A-28A-42A_n257G
DC_1A-28A-42A_n257H
DC_1A-28A-42A_n257I
DC_1A_n257A
DC_1A_n257G
DC_1A_n257H
DC_1A_n257I
DC_28A_n257A
DC_28A_n257G
DC_28A_n257H
DC_28A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_1A-28A-42C_n257G
DC_1A-28A-42C_n257H
DC_1A-28A-42C_n257I
DC_1A_n257A
DC_1A_n257G
DC_1A_n257H
DC_1A_n257I
DC_28A_n257A
DC_28A_n257G
DC_28A_n257H
DC_28A_n257I
DC_42A_n257A
DC_42A_n257G
DC_42A_n257H
DC_42A_n257I
DC_1A-8A-11A_n257G
UL_1A_n257A
DC_1A-8A-11A_n257G
UL_8A_n257A
DC_1A-8A-11A_n257G
UL_11A_n257A
DC_1A-8A-11A_n257H
UL_1A_n257A
DC_1A-8A-11A_n257H
UL_8A_n257A
DC_1A-8A-11A_n257H
UL_11A_n257A
DC_1A-8A-11A_n257I
UL_1A_n257A
DC_1A-8A-11A_n257I
UL_8A_n257A
DC_1A-8A-11A_n257I
UL_11A_n257A
DC_1A-28A-42A_n257D
DC_1A_n257A
DC_1A-28A-42A_n257D
DC_28A_n257A
DC_1A-28A-42A_n257D
DC_42A_n257A
DC_1A-28A-42A_n257G
DC_1A_n257A
DC_1A-28A-42A_n257G
DC_28A_n257A
DC_1A-28A-42A_n257G
DC_42A_n257A
DC_1A-28A-42A_n257H
DC_1A_n257A
DC_1A-28A-42A_n257H
DC_28A_n257A
DC_1A-28A-42A_n257H
DC_42A_n257A
DC_1A-28A-42A_n257I
DC_1A_n257A
DC_1A-28A-42A_n257I
DC_28A_n257A
DC_1A-28A-42A_n257I
DC_42A_n257A
DC_1A-28A-42C_n257D
DC_1A_n257A
DC_1A-28A-42C_n257D
DC_28A_n257A
DC_1A-28A-42C_n257D
DC_42A_n257A
DC_1A-28A-42C_n257G
DC_1A_n257A
DC_1A-28A-42C_n257G
DC_28A_n257A
DC_1A-28A-42C_n257G
DC_42A_n257A
DC_1A-28A-42C_n257H
DC_1A_n257A
DC_1A-28A-42C_n257H
DC_28A_n257A
DC_1A-28A-42C_n257H
DC_42A_n257A
DC_1A-28A-42C_n257I
DC_1A_n257A
DC_1A-28A-42C_n257I
DC_28A_n257A
DC_1A-28A-42C_n257I
DC_42A_n257A
DC_3A-28A-42A_n257D
DC_3A_n257A
DC_3A-28A-42A_n257D
DC_28A_n257A
DC_3A-28A-42A_n257D
DC_42A_n257A
DC_3A-28A-42A_n257G
DC_3A_n257A
DC_3A-28A-42A_n257G
DC_28A_n257A
DC_3A-28A-42A_n257G
DC_42A_n257A
DC_3A-28A-42A_n257H
DC_3A_n257A
DC_3A-28A-42A_n257H
DC_28A_n257A
DC_3A-28A-42A_n257H
DC_42A_n257A
DC_3A-28A-42A_n257I
DC_3A_n257A
DC_3A-28A-42A_n257I
DC_28A_n257A
DC_3A-28A-42A_n257I
DC_42A_n257A
DC_3A-28A-42C_n257D
DC_3A_n257A
DC_3A-28A-42C_n257D
DC_28A_n257A
DC_3A-28A-42C_n257D
DC_42A_n257A
DC_3A-28A-42C_n257G
DC_3A_n257A
DC_3A-28A-42C_n257G
DC_28A_n257A
DC_3A-28A-42C_n257G
DC_42A_n257A
DC_3A-28A-42C_n257H
DC_3A_n257A
DC_3A-28A-42C_n257H
DC_28A_n257A
DC_3A-28A-42C_n257H
DC_42A_n257A
DC_3A-28A-42C_n257I
DC_3A_n257A
DC_3A-28A-42C_n257I
DC_28A_n257A
DC_3A-28A-42C_n257I
DC_42A_n257A
DC_2A-46A-66A_n71A
DC_2A_n71A
DC_2A-46A-66A_n71A
DC_66A_n71A
DC_2A-46C-66A_n71A
DC_2A_n71A
DC_2A-46C-66A_n71A
DC_66A_n71A
DC_2A-46D-66A_n71A
DC_2A_n71A
DC_2A-46D-66A_n71A
DC_66A_n71A
DC_2A-46A-66A_n41A
DC_2A_n41A
DC_2A-46A-66A_n41A
DC_66A_n41A
DC_2A-46C-66A_n41A
DC_2A_n41A
DC_2A-46C-66A_n41A
DC_66A_n41A
DC_2A-46D-66A_n41A
DC_2A_n41A
DC_2A-46D-66A_n41A
DC_66A_n41A
DC_3C-7A-8A_n1A
DC_3C_n1A
DC_7A_n1A
DC_8A_n1A
DC_1A-3A-7A_n8A
DC_1A_n8A DC_3A_n8A
DC_7A_n8A
DC_1A-3A-20A_n8A
DC_1A_n8A DC_3A_n8A
DC_20A_n8A
DC_1A-7A-20A_n8A
DC_1A_n8A
DC_7A_n8A
DC_20A_n8A
DC_3A-7A-20A_n8A
DC_3A_n8A
DC_7A_n8A
DC_20A_n8A
DC_1A-7C-20A_n3A
DC_1A_n3A
DC_7A_n3A
DC_20A_n3A
DC_7C_n3A
DC_1A-3A-28A_n40A
DC_1A_n40A
DC_3A_n40A
DC_28A_n40A
DC_1A-8A-11A_n3A
DC_1A_n3A
DC_1A-8A-11A_n3A
DC_8A_n3A
DC_1A-8A-11A_n3A
DC_11A_n3A
DC_1A-8A-11A_n28A
DC_1A_n28A
DC_1A-8A-11A_n28A
DC_8A_n28A
DC_1A-8A-11A_n28A
DC_11A_n28A
DC_1A-8A-11A_n77(2A)
UL_1A_n77A
DC_1A-8A-11A_n77(2A)
UL_8A_n77A
DC_1A-8A-11A_n77(2A)
UL_11A_n77A
CA_2A-30A-66A_n2A
CA_2A_n2A
CA_30_n2A
CA_66A_n2A
CA_2A-30A-66A_n66A
CA_2A_n66A
CA_30_n66A
CA_66A_n66A
CA_2A-2A-30A-66A_n260M
CA_2A_n260M
CA_30_n260M
CA_66A_n260M
CA_2A-30A-66A-66A_n260M
CA_2A_n260M
CA_30_n260M
CA_66A_n260M
CA_2A-30A-66A-66A_n2A
CA_2A_n2A
CA_30_n2A
CA_66A_n2A
CA_2A-14A-66A_n66A
CA_2A_n66A
CA_14_n66A
CA_66A_n66A
CA_2A-14A-66A_n2A
CA_2A_n2A
CA_14_n2A
CA_66A_n2A
CA_2A-2A-14A-66A_n66A
e
CA_66A_n66A
CA_2A-14A-66A-66A_n2A
CA_2A_n2A
CA_14_n2A
CA_66A_n2A
DC_1A-3A-20A_n7A
DC_1A_n7A
DC_3A_n7A
DC_20A_n7A
DC_3A-7C-20A_n1A
DC_3A_n1A
DC_7A_n1A
DC_20A_n1A
DC_7C_n1A
DC_3C-7C-20A_n1A
DC_3A_n1A
DC_7A_n1A
DC_20A_n1A
DC_3C_n1A
DC_7C_n1A
DC_2A-5A-66A-n2A
DC_5A-n2A
DC_2A-5A-5A-66A-n2A
DC_5A-n2A
DC_2A-5A-5A-66A-66A-n2A
DC_5A-n2A
DC_2A-5A-66A-66A-n2A
DC_5A-n2A
DC_2A-5B-66A-n2A
DC_5A-n2A
DC_2A-5B-66A-66A-n2A
DC_5A-n2A
DC_2A-2A-5A-66A-n5A
DC_2A-n5A
DC_66A-n5A
DC_2A-2A-5A-66A-66A-n5A
DC_2A-n5A
DC_66A-n5A
DC_2A-5A-66A-66A-n5A
DC_2A-n5A
DC_66A-n5A
DC_2A-2A-5A-66A-66A-n66A
DC_5A-n66A
DC_2A-5A-66A-66A-n66A
DC_5A-n66A
DC_2A-5A-5A-66A-n66A
DC_5A-n66A
DC_2A-5A-5A-66A-66A-n66A
DC_5A-n66A
DC_2A-5B-66A-n66A
DC_5A-n66A
DC_2A-5B-66A-66A-n66A
DC_5A-n66A
DC_2A-13A-66A-n2A
DC_13A-n2A
DC_2A-13A-66A-66A-n2A
DC_13A-n2A
DC_2A-2A-13A-66A-n5A
DC_2A-n5A
DC_66A-n5A
DC_2A-2A-13A-66A-66A-n5A
DC_2A-n5A
DC_66A-n5A
DC_2A-13A-66A-n5A
DC_2A-n5A
DC_66A-n5A
DC_2A-13A-66A-66A-n5A
DC_2A-n5A
DC_66A-n5A
DC_2A-2A-13A-66A-66A-n66A
DC_13A-n66A
DC_2A-2A-13A-66A-n66A
DC_13A-n66A
DC_2A-13A-66A-66A-n66A
DC_13A-n66A
DC_2A-13A-66A-n48A
DC_2A-n48A
DC_13A-n48A
DC_66A-n48A
DC_2A-13A-66A-n48B
DC_2A-n48A
DC_13A-n48A
DC_66A-n48A
DC_2A-13A-66A-66A-n48A
DC_2A-n48A
DC_13A-n48A
DC_66A-n48A
DC_2A-13A-66A-66A-n48B
DC_2A-n48A
DC_13A-n48A
DC_66A-n48A
DC_2A-5A-66A-n261M
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261I
DC_5A-n261I
DC_66A-n261I
DC_2A-5A-66A-n261L
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261I
DC_5A-n261I
DC_66A-n261I
DC_2A-5A-66A-n261K
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261I
DC_5A-n261I
DC_66A-n261I
DC_2A-5A-66A-n261J
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261I
DC_5A-n261I
DC_66A-n261I
DC_2A-5A-66A-n261I
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261I
DC_5A-n261I
DC_66A-n261I
DC_2A-5A-66A-n261A
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-5A-66A-n261(H-I)
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261I
DC_5A-n261I
DC_66A-n261I
DC_2A-5A-66A-n261(A-K)
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261I
DC_5A-n261I
DC_66A-n261I
DC_2A-5A-66A-n261(G-J)
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261I
DC_5A-n261I
DC_66A-n261I
DC_2A-5A-66A-n261(G-I)
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261I
DC_5A-n261I
DC_66A-n261I
DC_2A-5A-66A-n261(2H)
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261H
DC_5A-n261H
DC_66A-n261H
DC_2A-5A-66A-n261(2A-I)
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261I
DC_5A-n261I
DC_66A-n261I
DC_2A-5A-66A-n261(A-J)
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261I
DC_5A-n261I
DC_66A-n261I
DC_2A-5A-66A-n261(G-H)
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261H
DC_5A-n261H
DC_66A-n261H
DC_2A-5A-66A-n261(2A-H)
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261H
DC_5A-n261H
DC_66A-n261H
DC_2A-5A-66A-n261(3A-G)
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261G
DC_5A-n261G
DC_66A-n261G
DC_2A-5A-66A-n261(2G)
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261G
DC_5A-n261G
DC_66A-n261G
DC_2A-5A-66A-n261(A-H)
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261H
DC_5A-n261H
DC_66A-n261H
DC_2A-5A-66A-n261(2A-G)
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261G
DC_5A-n261G
DC_66A-n261G
DC_2A-5A-66A-n261(A-G)
DC_2A-n261A
DC_5A-n261A
DC_66A-n261A
DC_2A-n261G
DC_5A-n261G
DC_66A-n261G
DC_2A-13A-66A-n261I
DC_2A-n261I
DC_13A-n261I
DC_66A-n261I
DC_2A-13A-66A-n261J
DC_2A-n261I
DC_13A-n261I
DC_66A-n261I
DC_2A-13A-66A-n261K
DC_2A-n261I
DC_13A-n261I
DC_66A-n261I
DC_2A-13A-66A-n261L
DC_2A-n261I
DC_13A-n261I
DC_66A-n261I
DC_2A-13A-66A-n261M
DC_2A-n261I
DC_13A-n261I
DC_66A-n261I
DC_2A-13A-66A-n261(H-I)
DC_2A-n261I
DC_13A-n261I
DC_66A-n261I
DC_2A-13A-66A-n261(G-I)
DC_2A-n261I
DC_13A-n261I
DC_66A-n261I
DC_2A-13A-66A-n261(2H)
DC_2A-n261H
DC_13A-n261H
DC_66A-n261H
DC_2A-13A-66A-n261(2A-I)
DC_2A-n261I
DC_13A-n261I
DC_66A-n261I
DC_2A-13A-66A-n261(G-H)
DC_2A-n261H
DC_13A-n261H
DC_66A-n261H
DC_2A-13A-66A-n261(2A-H)
DC_2A-n261H
DC_13A-n261H
DC_66A-n261H
DC_2A-13A-66A-n261(2G)
DC_2A-n261G
DC_13A-n261G
DC_66A-n261G
DC_2A-13A-66A-n261(A-H)
DC_2A-n261H
DC_13A-n261H
DC_66A-n261H
DC_2A-13A-66A-n261(2A-G)
DC_2A-n261G
DC_13A-n261G
DC_66A-n261G
DC_2A-13A-66A-n261(A-G)
DC_2A-n261G
DC_13A-n261G
DC_66A-n261G
DC_2A-13A-66A-n261(A-K)
DC_2A-n261I
DC_13A-n261I
DC_66A-n261I
DC_2A-13A-66A-n261(G-J)
DC_2A-n261I
DC_13A-n261I
DC_66A-n261I
DC_2A-13A-66A-n261(A-J)
DC_2A-n261I
DC_13A-n261I
DC_66A-n261I
DC_2A-13A-66A-n261(3A-G)
DC_2A-n261G
DC_13A-n261G
DC_66A-n261G
DC_2A-13A-66A-n260I
DC_2A-n260I
DC_13A-n260I
DC_66A-n260I
DC_2A-13A-66A-n260J
DC_2A-n260I
DC_13A-n260I
DC_66A-n260I
DC_2A-13A-66A-n260K
DC_2A-n260I
DC_13A-n260I
DC_66A-n260I
DC_2A-13A-66A-n260L
DC_2A-n260I
DC_13A-n260I
DC_66A-n260I
DC_2A-13A-66A-n260M
DC_2A-n260I
DC_13A-n260I
DC_66A-n260I
DC_2A-5A-66A-n260I
DC_2A-n260I
DC_5A-n260I
DC_66A-n260I
DC_2A-5A-66A-n260J
DC_2A-n260I
DC_5A-n260I
DC_66A-n260I
DC_2A-5A-66A-n260K
DC_2A-n260I
DC_5A-n260I
DC_66A-n260I
DC_2A-5A-66A-n260L
DC_2A-n260I
DC_5A-n260I
DC_66A-n260I
DC_2A-5A-66A-n260M
DC_2A-n260I
DC_5A-n260I
DC_66A-n260I
DC_2A-5A-66A_n48A
-
DC_2A-5A-66A_n48A
DC_2A_n48A
DC_2A-5A-66A_n48A
DC_5A_n48A
DC_2A-5A-66A_n48A
DC_66A_n48A
DC_2A-5A-66A_n48B
-
DC_2A-5A-66A_n48B
DC_2A_n48A
DC_2A-5A-66A_n48B
DC_5A_n48A
DC_2A-5A-66A_n48B
DC_66A_n48A
DC_2A-5A-66A-66A_n48A
-
DC_2A-5A-66A-66A_n48A
DC_2A_n48A
DC_2A-5A-66A-66A_n48A
DC_5A_n48A
DC_2A-5A-66A-66A_n48A
DC_66A_n48A
DC_2A-5A-66A-66A_n48B
-
DC_2A-5A-66A-66A_n48B
DC_2A_n48A
DC_2A-5A-66A-66A_n48B
DC_5A_n48A
DC_2A-5A-66A-66A_n48B
DC_66A_n48A
DC_2A-13A-66B_n66A
-
DC_2A-13A-66B_n66A
DC_13A_n66A
DC_1A_7A-28A_n40A
DC_1A_n40A
DC_7A_n40A
DC_28A_n40A
DC_1A_3A-7A_n40A
DC_1A_n40A
DC_3A_n40A
DC_7A_n40A
DC_3A_7A-28A_n40A
DC_3A_n40A
DC_7A_n40A
DC_28A_n40A
DC_1A-3A-8A_n28A
DC_1A_n28A
DC_1A-3A-8A_n28A
DC_3A_n28A
DC_1A-3A-8A_n28A
DC_8A_n28A
DC_1A-3A-8A_n77(2A)
DC_1A_n77A
DC_1A-3A-8A_n77(2A)
DC_3A_n77A
DC_1A-3A-8A_n77(2A)
DC_8A_n77A
DC_1A-8A-42A_n28A
DC_1A_n28A
DC_1A-8A-42A_n28A
DC_8A_n28A
DC_1A-8A-42A_n28A
DC_42A_n28A
DC_1A-8A-42C_n28A
DC_1A_n28A
DC_1A-8A-42C_n28A
DC_8A_n28A
DC_1A-8A-42C_n28A
DC_42A_n28A
DC_42C_n28A
DC_1A-8A-42A_n77(2A)
DC_1A_n77A
DC_1A-8A-42A_n77(2A)
DC_8A_n77A
DC_1A-8A-42C_n77(2A)
DC_1A_n77A
DC_1A-8A-42C_n77(2A)
DC_8A_n77A
DC_14A-30A-66A_n66A
DC_14A_n66A
DC_30A_n66A
DC_66A_n66A
DC_29A-30A-66A_n66A
DC_30A_n66A
DC_66A_n66A
DC_2A-14A-30A_n66A
DC_2A_n66A
DC_14A_n66A
DC_30A_n66A
DC_2A-14A-30A_n2A
DC_2A_n2A
DC_14A_n2A
DC_30A_n2A
DC_14A-30A-66A_n2A
DC_14A_n2A
DC_30A_n2A
DC_66A_n2A
DC_2A-14A-66A_n30A
DC_2A_n30A
DC_14A_n30A
DC_66A_n30A
DC_2A-2A-14A-30A_n66A
DC_2A_n66A
DC_14A_n66A
DC_30A_n66A
DC_2A-2A-14A-66A_n30A
DC_2A_n30A
DC_14A_n30A
DC_66A_n30A
DC_2A-14A-66A-66A_n30A
DC_2A_n30A
DC_14A_n30A
DC_66A_n30A
DC_2A-29A-66A_n66A
DC_2A_n66A
DC_66A_n66A
DC_29A-30A-66A_n2A
DC_30A_n2A
DC_66A_n2A
DC_2A-29A-30A_n2A
DC_2A_n2A
DC_30A_n2A
DC_2A-29A-66A_n2A
DC_2A_n2A
DC_66A_n2A
DC_29A-30A-66A-66A_n2A
DC_30A_n2A
DC_66A_n2A
DC_2A-29A-66A-66A_n2A
DC_2A_n2A
DC_66A_n2A
DC_2A-46E-66A_n260M
DC_2A_n260M
DC_66A_n260M
DC_2A-14A-66A_n66A
DC_2A_n66A
DC_14A_n66A
DC_66A_n66A
DC_1A-3A-41A_n28A
DC_1A_n28A
DC_3A_n28A
DC_41A_n28A
DC_1A-3A-41C_n28A
DC_1A_n28A
DC_3A_n28A
DC_41A_n28A
DC_41C_n28A
DC_1A-3A-41A_n77(2A)
DC_1A_n77A
DC_3A_n77A
DC_41A_n77A
DC_1A-3A-41C_n77(2A)
DC_1A_n77A
DC_3A_n77A
DC_41A_n77A
DC_41C_n77A
DC_1A-3A-41A_n78(2A)
DC_1A_n78A
DC_3A_n78A
DC_41A_n78A
DC_1A-3A-41C_n78(2A)
DC_1A_n78A
DC_3A_n78A
DC_41A_n78A
DC_41C_n78A
DC_1A-11A-18A_n77A
DC_1A_n77A
DC_11A_n77A
DC_18A_n77A
DC_1A-11A-18A_n78A
DC_1A_n78A
DC_11A_n78A
DC_18A_n78A
DC_1A-11A-18A_n257I
DC_1A_n257I
DC_11A_n257I
DC_18A_n257I
DC_1A-18A-41A_n3A
DC_18A_n3A
DC_41A_n3A
DC_1A-18A-41C_n3A
DC_18A_n3A
DC_41A_n3A
DC_41C_n3A
DC_1A-18A-41A_n77A
DC_18A_n77A
DC_41A_n77A
DC_1A-18A-41C_n77A
DC_18A_n77A
DC_41A_n77A
DC_41C_n77A
DC_1A-18A-41A_n78A
DC_18A_n78A
DC_41A_n78A
DC_1A-18A-41C_n78A
DC_18A_n78A
DC_41A_n78A
DC_41C_n78A
DC_1A-18A-41A_n257A
DC_18A_n257A
DC_41A_n257A
DC_1A-18A-41C_n257A
DC_18A_n257A
DC_41A_n257A
DC_41C_n257A
DC_1A-18A-41A_n257I
DC_18A_n257I
DC_41A_n257I
DC_1A-18A-41C_n257I
DC_18A_n257I
DC_41A_n257I
DC_41C_n257I
DC_1A-7A-8A_n3A
DC_1A_n3A
DC_7A_n3A
DC_8A_n3A
DC_1A-20A_(n)38AA
DC_1A_n38A
DC_20A_n38A
DC_1A-3A-20A_n41A
DC_1A_n41A
DC_3A_n41A
DC_20A_n41A
DC_1A-3C-20A_n41A
DC_1A_n41A
DC_3A_n41A
DC_20A_n41A
DC_1A-3A-32A_n78A
DC_1A_n78A
DC_3A_n78A
DC_1A-3A-32A_n78(2A)
DC_1A_n78A
DC_3A_n78A
DC_2A-46A-66A_n41(2A)
DC_2A_n41A
DC_2A-46A-66A_n41(2A)
DC_66A_n41A
DC_2A-46C-66A_n41(2A)
DC_2A_n41A
DC_2A-46C-66A_n41(2A)
DC_66A_n41A
DC_2A-46D-66A_n41(2A)
DC_2A_n41A
DC_2A-46D-66A_n41(2A)
DC_66A_n41A
NOTE 1: Non-contiguous allocation is assumed for 42_n77 and for 42_n78
This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
37.716-33
|
E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) of 3 bands Down Link (DL) and 3 band Up Link (UL)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.716-33/37716-33-g00.zip
|
The present document is a technical report for Dual Connectivity (EN-DC) with 3 bands DL and 3 bands UL under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address Dual Connectivity (EN-DC) with 3 bands DL and 3 bands UL for the Rel-16 band combinations, where:
- For only 1 NR band included, only NR FR2 band is applied
- For only 2 NR bands included, 1 NR FR1 band and 1 NR FR2 band are included and operated as inter-band CA
Table 1-1: Release 16 Dual Connectivity (EN-DC) with 3 bands DL and 3 bands UL (1 NR band)
DC combination
Uplink EN-DC configuration
Table 1-2: Release 16 Dual Connectivity (EN-DC) with 3 bands DL and 3 bands UL(2 NR bands)
DC combination
Uplink EN-DC configuration
DC_3_n79-n258
DC_3A_n79A-n258A
DC_66_n5-n260
DC_66A-n5A-n260A
DC_66_n5-n261
DC_66A_n5A-n261A
DC_21_n77-n257
DC_21A_n77A-n257A
DC_21A_n77A-n257G
DC_21A_n77A-n257H
DC_21A_n77A-n257I
DC_21_n78-n257
DC_21A_n78A-n257A
DC_21A_n78A-n257G
DC_21A_n78A-n257H
DC_21A_n78A-n257I
DC_21_n79-n257
DC_21A_n79A-n257A
DC_21A_n79A-n257G
DC_21A_n79A-n257H
DC_21A_n79A-n257I
DC_3A_n40A-n258A
DC_3A_n40A-n258A
This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
37.716-41-11
|
E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) of 4 bands LTE inter-band Carrier aggregation (CA) (4 Down Link (DL) / 1 Up Link (UL)) and 1 NR band (1 DL / 1 UL)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.716-41-11/37716-41-11-g00.zip
|
The present document is a technical report for Dual Connectivity (EN-DC) of 4 LTE bands (4DL/1UL) and 1 NR band (1DL/1UL) under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address Dual Connectivity (EN-DC) of 4 LTE band (4DL/1UL) and 1 NR band (1DL/1UL) for the Rel-16 band combinations. in Table 1-1 and Table 1-2. The co-existence analysis and RF front end requirements such as Delta RIB,C and TIB,C are described based on the band combination basis since such information have no difference between the EN-DC configulations consisting with the same E-UTRA band and the same NR band.
Table 1-1: Release 16 EN-DC of 4 LTE band (4DL/1UL) and 1 NR band (1DL/1UL) within FR1
EN-DC configuration
Uplink EN-DC configuration
DC_1A-3A-41A-42A_n78A
DC_1A-3A-41A-42C_n78A
DC_1A-3A-41C-42A_n78A
DC_1A-3A-41C-42C_n78A
DC_1A_n78A
DC_3A_n78A
DC_41A_n78A
DC_1A-3A-18A-42A_n78A
DC_1A-3A-18A-42C_n78A
DC_1A_n78A
DC_3A_n78A
DC_18A_n78A
DC_3A-19A-21A-42A_n77A
DC_3A-19A-21A-42A_n77C
DC_3A-19A-21A-42C_n77A
DC_3A-19A-21A-42C_n77C
DC_3A_n77A
DC_19A_n77A
DC_21A_n77A
DC_3A-19A-21A-42A_n78A
DC_3A-19A-21A-42A_n78C
DC_3A-19A-21A-42C_n78A
DC_3A-19A-21A-42C_n78C
DC_3A_n78A
DC_19A_n78A
DC_21A_n78A
DC_3A-19A-21A-42A_n79A
DC_3A-19A-21A-42A_n79C
DC_3A-19A-21A-42C_n79A
DC_3A-19A-21A-42C_n79C
DC_3A_n79A
DC_19A_n79A
DC_21A_n79A
DC_1A-3A-41A-42A_n79A
DC_1A-3A-41A-42C_n79A
DC_1A-3A-41C-42A_n79A
DC_1A-3A-41C-42C_n79A
DC_1A_n79A
DC_3A_n79A
DC_41A_n79A
DC_1A-3A-18A-42A_n79A
DC_1A-3A-18A-42C_n79A
DC_1A_n79A
DC_3A_n79A
DC_18A_n79A
DC_1A-3A-41A-42A_n77A
DC_1A-3A-41A-42C_n77A
DC_1A-3A-41C-42A_n77A
DC_1A-3A-41C-42C_n77A
DC_1A_n77A
DC_3A_n77A
DC_41A_n77A
DC_1A-3A-18A-42A_n77A
DC_1A-3A-18A-42C_n77A
DC_1A_n77A
DC_3A_n77A
DC_18A_n77A
DC_1A-3A-7A-8A_n78A
DC_1A_n78A
DC_3A_n78A
DC_7A_n78A
DC_8A_n78A
DC_1A-3A-7A-28A_n78A
DC_1A-3A-7C-28A_n78A
DC_1A-3C-7A-28A_n78A
DC_1A-3C-7C-28A_n78A
DC_1A_n78A
DC_3A_n78A
DC_3C_n78A
DC_7A_n78A
DC_7C_n78A
DC_28A_n78A
DC_1A-3A-5A-41A_n79A
DC_1A_n79A
DC_3A_n79A
DC_5A_n79A
DC_41A_n79A
DC_1A-3A-7A-28A_n5A
DC_1A-3C-7A-28A_n5A
DC_1A-3A-7C-28A_n5A
DC_1A-3C-7C-28A_n5A
DC_1A_n5A
DC_3A_n5A
DC_7A_n5A
DC_28A_n5A
DC_1A-3A-20A-38A_n78A
DC_3A_n78A
DC_20A_n78A
DC_1A-3A-8A-42A_n77A
DC_1A-3A-8A-42C_n77A
DC_1A_n77A
DC_3A_n77A
DC_8A_n77A
DC_2A-12A-30A-66A_n2A
DC_12A_n2A
DC_30A_n2A
DC_66A_n2A
DC_2A-7A-13A-66A_n66A
DC_2A-7C-13A-66A_n66A
DC_2A_n66A
DC_7A_n66A
DC_13A_n66A
DC_66A_n66A4
DC_1A-3A-7A-28A_n7A
DC_1A-3C-7A-28A_n7A
DC_1A-1A-3A-7A-28A_n7A
DC_1A-1A-3A-3A-7A-28A_n7A
DC_1A-3A-3A-7A-28A_n7A
DC_1A-1A-3C-7A-28A_n7A
DC_1A_n7A
DC_3A_n7A
DC_3C_n7A
DC_7A_n7A4
DC_28A_n7A
DC_2A-12A-30A-66A_n66A
DC_2A_n66A
DC_12A_n66A
DC_30A_n66A
DC_66A_n66A4
DC_1A-3A-7A-28A_n40A
DC_1A_n40A
DC_3A_n40A
DC_7A_n40A
DC_28A_n40A
DC_2A-29A-30A-66A_n2A
DC_2A_n2A
DC_30A_n2A
DC_66A_n2A
DC_1A-3A-7A-20A_n8A
DC_1A_n8A
DC_3A_n8A
DC_7A_n8A
DC_20A_n8A
NOTE 1: Uplink EN-DC configurations are the configurations supported by the present release of specifications.
NOTE 2: Applicable for UE supporting inter-band EN-DC with mandatory simultaneous Rx/Tx capability
NOTE 3: The frequency range in band n28 is restricted for this band combination to 703-733 MHz for the UL and 758-788 MHz for the DL
NOTE 4: Only single switched UL is supported
Table 1-2: Release 16 EN-DC of 4 LTE band (4DL/1UL) and 1 NR band (1DL/1UL) including FR2
EN-DC configuration
Uplink EN-DC configuration
DC_2A-12A-30A-66A_n260
DC_2A_n260A
DC_12A_n260A
DC_30A_n260A
DC_66A_n260A
DC_2A-5A-30A-66A_n260
DC_2A_n260A
DC_5A_n260A
DC_30A_n260A
DC_66A_n260A
DC_1A-3A-41A-42A_n257A
DC_1A-3A-41A-42A_n257F
DC_1A-3A-41A-42A_n257M
DC_1A-3A-41A-42C_n257A
DC_1A-3A-41A-42C_n257F
DC_1A-3A-41A-42C_n257M
DC_1A-3A-41C-42A_n257A
DC_1A-3A-41C-42A_n257F
DC_1A-3A-41C-42A_n257M
DC_1A-3A-41C-42C_n257A
DC_1A-3A-41C-42C_n257F
DC_1A-3A-41C-42C_n257M
DC_1A_n257A
DC_3A_n257A
DC_41A_n257A
DC_42A_n257A
DC_1A-3A-18A-42A_n257A
DC_1A-3A-18A-42A_n257F
DC_1A-3A-18A-42A_n257M
DC_1A-3A-18A-42C_n257A
DC_1A-3A-18A-42C_n257F
DC_1A-3A-18A-42C_n257M
DC_1A_n257A
DC_3A_n257A
DC_18A_n257A
DC_42A_n257A
DC_1A-3A-5A-7A_n257D
DC_1A-3A-5A-7A_n257E
DC_1A-3A-5A-7A_n257F
DC_1A-3A-5A-7A_n257G
DC_1A-3A-5A-7A_n257H
DC_1A-3A-5A-7A_n257I
DC_1A-3A-5A-7A_n257J
DC_1A-3A-5A-7A_n257K
DC_1A-3A-5A-7A_n257L
DC_1A-3A-5A-7A_n257M
DC_1A_n257A
DC_3A_n257A
DC_5A_n257A
DC_7A_n257A
DC_1A-3A-5A-7A-7A_n257D
DC_1A-3A-5A-7A-7A_n257E
DC_1A-3A-5A-7A-7A_n257F
DC_1A-3A-5A-7A-7A_n257G
DC_1A-3A-5A-7A-7A_n257H
DC_1A-3A-5A-7A-7A_n257I
DC_1A-3A-5A-7A-7A_n257J
DC_1A-3A-5A-7A-7A_n257K
DC_1A-3A-5A-7A-7A_n257L
DC_1A-3A-5A-7A-7A_n257M
DC_1A_n257A
DC_3A_n257A
DC_5A_n257A
DC_7A_n257A
DC_2A-14A-30A-66A_n260A
DC_2A-14A-30A-66A_n260G
DC_2A-14A-30A-66A_n260H
DC_2A-14A-30A-66A_n260I
DC_2A-14A-30A-66A_n260J
DC_2A-14A-30A-66A_n260K
DC_2A-14A-30A-66A_n260L
DC_2A-14A-30A-66A_n260M
DC_2A_n260A
DC_2A_n260G
DC_2A_n260H
DC_2A_n260I
DC_2A_n260J
DC_2A_n260K
DC_2A_n260L
DC_2A_n260M
DC_14A_n260A
DC_14A_n260G
DC_14A_n260H
DC_14A_n260I
DC_14A_n260J
DC_14A_n260K
DC_14A_n260L
DC_14A_n260M
DC_30A_n260A
DC_30A_n260G
DC_30A_n260H
DC_30A_n260I
DC_30A_n260J
DC_30A_n260K
DC_30A_n260L
DC_30A_n260M
DC_66A_n260A
DC_66A_n260G
DC_66A_n260H
DC_66A_n260I
DC_66A_n260J
DC_66A_n260K
DC_66A_n260L
DC_66A_n260M
DC_3A-19A-21A-42A_n257A
DC_3A-19A-21A-42A_n257D
DC_3A-19A-21A-42A_n257E
DC_3A-19A-21A-42A_n257F
DC_3A-19A-21A-42C_n257A
DC_3A-19A-21A-42C_n257D
DC_3A-19A-21A-42C_n257E
DC_3A-19A-21A-42C_n257F
DC_3A_n257A
DC_19A_n257A
DC_21A_n257A
DC_3A_n257D
DC_19A_n257D
DC_21A_n257D
This TR contains only band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
37.716-41-22
|
Dual Connectivity (EN-DC) of LTE inter-band CA xDL/1UL bands (x=2,3,4) and NR FR1 1DL/1UL band and NR FR2 1DL/1UL band
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.716-41-22/37716-41-22-g00.zip
|
The present document is a technical report for Dual Connectivity (EN-DC) of LTE inter-band CA (xDL/1UL) (x=2,3,4) bands and NR FR1 1DL/1UL band and NR FR2 1DL/1UL band under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address EN-DC of LTE inter-band CA (xDL/1UL) (x=2,3,4) bands and NR FR1 1DL/1UL band and NR FR2 1DL/1UL band for the Rel-16 band combinations in Table 1-1. The RF front end requirements such as Delta RIB,C and TIB,C are described based on the band combination basis since such information have no difference between the EN-DC configulations consisting with the same E-UTRA band and the same NR band.
Table 1-1: Release 16 EN-DC of LTE inter-band CA (xDL/1UL) (x=2,3,4) bands and NR FR1 1DL/1UL band and NR FR2 1DL/1UL band
EN-DC configuration
Uplink EN-DC configuration
This TR contains only band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
37.716-51-11
|
E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) of 5 bands LTE inter-band Carrier aggregation (CA) (5 Down Link (DL) / 1 Up Link (UL)) and 1 NR band (1 DL / 1 UL)
|
TR
|
0.0.1
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.716-51-11/37716-51-11-001.zip
|
The present document is a technical report for Dual Connectivity (EN-DC) of 5 LTE bands (5DL/1UL) and 1 NR band (1DL/1UL) under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address Dual Connectivity (EN-DC) of 5 LTE band (5DL/1UL) and 1 NR band (1DL/1UL)for the Rel-16 band combinations in Table 1-1. The co-existence analysis and RF front end requirements such as Delta RIB,C and TIB,C are described based on the band combination basis since such information have no difference between the EN-DC configurations consisting with the same E-UTRA band and the same NR band.
This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
37.815
|
Study on high power User Equipment (UE) (power class 2) for E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) (1 LTE FDD band + 1 NR TDD band)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.815/37815-g00.zip
|
The present document is a technical report for high power UE(power class 2) for EN-DC(1 LTE FDD band + 1 NR TDD FDD). The purpose is to study how to introduce the new power class 2 (1 LTE FDD band + 1 NR TDD band) for EN-DC bands in Rel-16.
|
37.816
|
Study on RAN-centric data collection and utilization for LTE and NR
|
TR
|
16.0.0
|
R3
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.816/37816-g00.zip
|
The present document provides descriptions of use cases and solutions with regard to RAN-centric data collection and utilization and analysis of these solutions.
|
37.823
|
Coexistence between LTE-MTC and NR
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.823/37823-g00.zip
|
The present document is a technical report for the work item of R16 LTE-M [2]. The scope of the TR is as follows:
- For LTE-MTC in-band operation co-existence with NR, RAN4 will investigate the following:
- 15 kHz, 30 kHz, and 60 kHz numerologies for NR FR1 bands, with higher priority given first to 15 kHz and then to 30 kHz
- Study feasible LTE-MTC placement allocation without RF backward compatibility impact and compatible with Rel-13 LTE-MTC and Rel-15 NR, to operate simultaneously within various NR channel bandwidths
- Channel raster, PRB and subcarrier grid alignment between LTE-MTC and NR
- Synchronization issue between LTE-MTC and NR, including timing advance
- Frequency band support in LTE-MTC and NR
- Testability applicability
- Compatibility for Rel-15 NR and Rel-13/14/15 LTE-MTC
The case of NR configured with 15 kHz SS block SCS and the case of 30 kHz SS block SCS as specified in 38.101-1 are included in the study.The Rel-16 LTE-MTC and NR coexisting feature
|
37.824
|
Coexistence between NB-IoT and NR
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.824/37824-g00.zip
|
The present document is a technical report for the work item on additional enhancements for NB-IoT, covering the study on the coexistence of NB-IoT with NR, which is one of the objectives of the WI [2].
|
37.825
|
High power User Equipment (UE) (power class 2) for E-UTRA (Evolved Universal Terrestrial Radio Access) - NR Dual Connectivity (EN-DC) (1 LTE TDD band + 1 NR TDD band)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.825/37825-g00.zip
| |
37.873
|
Study on optimizations of UE radio capability signalling; NR / Evolved Universal Terrestrial Radio Access Network (E-UTRAN) aspects
|
TR
|
16.0.0
|
R2
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.873/37873-g00.zip
|
The present document is intended to capture findings produced in the context of the study on optimizations of UE radio capability signalling.
The study is expected to proceed as follows:
- Study the size of UE Radio Capability signaling
- Study mechanisms to optimise the UE Radio Capability signalling over the air while addressing the limitations of radio protocol interface,
- Solutions using UE capability identity,
- Solutions using other means (i.e. segmentation, compression).
The study shall consider the possibility to change UE radio capabilities.
As part of the study and in coordination with other WGs especially RAN WGs it should be concluded whether to proceed with normative work.
|
37.901-5
|
Study on 5G NR User Equipment (UE) application layer data throughput performance
|
TR
|
16.13.0
|
R5
|
https://www.3gpp.org/ftp/Specs/archive/37_series/37.901-5/37901-5-gd0.zip
|
The present document contains the findings of the Study on 5G NR User Equipment (UE) application layer data throughput performance and the proposed test procedures.
|
38.716-01-01
|
NR intra band Carrier Aggregation (CA) Rel-16 for xCC Down Link (DL) / yCC Up Link (UL) including contiguous and non-contiguous spectrum (x >= y)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.716-01-01/38716-01-01-g00.zip
|
The present document is a technical report for NR Intra-band Carrier Aggregation Rel-16 for xDL/yUL including contiguous and non-contiguous spectrum under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address NR Intra-band Carrier Aggregation requirements for the Rel-16 band combinations in Table 1-1, Table 1-2, Table 1-3 and Table 1-4.
Table 1-1: Release 16 NR Intra-band carrier contiguous aggregation combinations FR1
CA combination
DL_n78C_UL_n78C
DL_n79C_UL_n79C
DL_n66B_UL_n66A
DL_n41C_UL_n41A
DL_n41C_UL_n41C
DL_n71B
DL_n77C_UL_n77C
2CC_DL_n5B_BCS0
2CC_DL_n5B_1CC_UL_n5A_BCS0
2CC_DL_n5B_2CC _UL_n5B_BCS0
2CC_DL_n48B_BCS0
2CC_DL_n48B_1CC_UL_n48A_BCS0
2CC_DL_n48B_2CC_UL_n48B_BCS0
2CC_DL_n48C_BCS0
2CC_DL_n48C_1CC _UL_n48A_BCS0
2CC_DL_n48C_2CC _UL_n48C_BCS0
2CC_DL_n66B_BCS0
2CC_DL_n66B_1CC_UL_n66A_BCS0
2CC_DL_n66B_2CC_UL_n66B_BCS0
DL_n3B_UL_n3B_BCS0
CA_n1B_UL_n1B_BCS0
CA_n41C_UL_n41A_BCS1
CA_n7B_UL_n7A_BCS0
CA_n7B_UL_n7B_BCS0
CA_n71B
CA_n41B_UL_n41B_BCS0
Table 1-2: Release 16 NR Intra-band carrier non-contiguous aggregation combinations FR1
CA combination
DL_n66(2A)_UL_66A
DL_n41(2A)_UL_n41A
DC_n25(2A)_UL_n25A
2CC_DL_n2(2A)_BCS0
2CC_DL_n2(2A)_1CC_UL_n2A_BCS0
2CC_DL_n5(2A)_BCS0
2CC_DL_n5(2A)_1CC_UL_n5A_BCS0
2CC_DL_n48(2A)_BCS0
2CC_DL_n48(2A)_1CC _n48A_BCS0
2CC_DL_n66(2A)_1CC_UL_n66A_BCS0
3CC_DL_ n66(A-B)_BCS0
3CC_DL_ n66(A-B)_1CC _UL_n66A_BCS0
3CC_DL_ n66(A-B)_2CC _UL_n66B_BCS0
CA_n41(2A)
DL_n77(2A)_UL_n77A
DL_n78(2A)_UL_n78A
CA_n25(2A) UL_n25A_BCS0
CA_n7(2A)_UL_n7A_BCS0
CA_n78(2A)_UL_n78A_BCS0
CA_n3(2A)_UL_n3A_BCS0
CA_n41(2A)_UL_n41A_BCS1
CA_n78(2A)
CA_n77(3A)
CA_n48(A-C)
CA_n48(3A)
CA_n48(4A)
CA_n77(2A)_UL_n77(2A)_BCS0
CA_n78(2A)_UL_n78(2A)_BCS0
CA_n78(2A)_UL_n78(2A)_BCS1
Table 1-3: Release 16 NR Intra-band carrier contiguous aggregation combinations FR2
CA combination
REL-indep.
from
CA_n258B
Rel-15
CA_n258C
Rel-15
CA_n258D
Rel-15
CA_n258E
Rel-15
CA_n258F
Rel-15
CA_n258G
Rel-15
CA_n258H
Rel-15
CA_n258I
Rel-15
CA_n258J
Rel-15
CA_n258K
Rel-15
CA_n258L
Rel-15
CA_n258M
Rel-15
CA_n257G_UL_n257G
Rel-15
CA_n257H_UL_n257G
Rel-15
CA_n257H_UL_n257H
Rel-15
CA_n257I_UL_n257G
Rel-15
CA_n257I_UL_n257H
Rel-15
CA_n257I_UL_n257I
Rel-15
CA_n257J_UL_n257G
Rel-15
CA_n257J_UL_n257H
Rel-15
CA_n257J_UL_n257I
Rel-15
CA_n257J_UL_n257J
Rel-15
CA_n257K_UL_n257G
Rel-15
CA_n257K_UL_n257H
Rel-15
CA_n257K_UL_n257I
Rel-15
CA_n257K_UL_n257J
Rel-15
CA_n257K_UL_n257K
Rel-15
CA_n257L_UL_n257G
Rel-15
CA_n257L_UL_n257H
Rel-15
CA_n257L_UL_n257I
Rel-15
CA_n257L_UL_n257J
Rel-15
CA_n257L_UL_n257K
Rel-15
CA_n257L_UL_n257L
Rel-15
CA_n257M_UL_n257G
Rel-15
CA_n257M_UL_n257H
Rel-15
CA_n257M_UL_n257I
Rel-15
CA_n257M_UL_n257J
Rel-15
CA_n257M_UL_n257K
Rel-15
CA_n257M_UL_n257L
Rel-15
CA_n257M_UL_n257M
Rel-15
CA_n261G_UL_n261G
Rel-15
CA_n261H_UL_n261H
Rel-15
CA_n261I_UL_n261H
Rel-15
CA_n261J_UL_n261H
Rel-15
CA_n261K_UL_n261H
Rel-15
CA_n261L_UL_n261H
Rel-15
CA_n261M_UL_n261H
Rel-15
CA_n258D_UL_n258D
Rel-15
CA_n257C
Rel-15
Table 1-4: Release 16 NR Intra-band carrier non-contiguous aggregation combinations FR2
CA combination
CA_n260(5A)
CA_n260(6A)
CA_n260(7A)
CA_n260(8A)
CA_n260(9A)
CA_n260(10A)
CA_n260(2G)
CA_n260(4G)
CA_n260(2H)
CA_n260(2O)
CA_n260(3O)
CA_n260(4O)
CA_n260(2P)
CA_n260(4P)
CA_n261(2D)
CA_n261(2G)
CA_n261(3G)
CA_n261(4G)
CA_n261(2H)
CA_n261(2I)
CA_n261(2O)
CA_n261(4O)
CA_n261(7O)
CA_n261(2P)
CA_n261(4Q)
CA_n261(7O)
CA_n261(2P)
CA_n261(4Q)
CA_n260(2P)
CA_n260(3G)
CA_n260(4G)
CA_n260(A-G-O)
CA_n260(2A-G-O)
CA_n260(2A-2G-O)
CA_n260(A-G)
CA_n260(G-O)
CA_n260(G-O)
CA_n260(A-D)
CA_n260(2A-D) _UL_n260(2A)
CA_n260(A-D-O)
CA_n260(2A-D-O)
CA_n260(D-2O)
CA_n260(A-D-2O)
CA_n260(2A-D-2O)
CA_n260(A-2D)
CA_n260(2A-2D)
DC_n260(A-P)
DC_n260(2A-P)_UL_n260(2A)
DC_n260(2A-O)_UL_n260(2A)
DC_n260(2A-G)_UL_n260(2A)
DC_n260(2A-H)_UL_n260(2A)
DC_n260(A-2P)
DC_n260(2A-2P)
CA_n260(3A-3O)
CA_n260(D-2G)
CA_n260(2D-O)
CA_n260(G-2O)
CA_n260(2G-2O)
CA_n260(G-3O)
CA_n260(2G-3O)
CA_n260(G-4O)
CA_n260(2G-4O)
CA_n260(3G-O)
CA_n260(4G-O)
CA_n260(H-O)
CA_n260(2H-O)
CA_n261(A-D)
CA_n261(A-D-H)
CA_n261(A-G)
CA_n261(A-G-H)
CA_n261(G-I)
CA_n261(A-G-I)
CA_n261(A-H-I)
CA_n261(G-H)
CA_n261(H-I)
CA_n260(2A-G-2O)
CA_n260(A-2G-2O)
CA_n260(2A-2O-P)
CA_n260(2A-O-2P)
CA_n260(A-2O-2P)
CA_n260(2A-2O-Q)
CA_n260(2A-O-2Q)
CA_n260(A-2O-2Q)
CA_n260(4A-3O)
CA_n260(3A-4O)
CA_n260(4A-Q)
CA_n260(3A-2Q)
CA_n260(3A-P)
CA_n260(A-O-P)
CA_n260(A-Q)
CA_n260(P-Q)
CA_n260(2A-3P)
CA_n260(A-4P)
CA_n260(6A-O)
CA_n260(5A-2O)
CA_n260(5A-3O)
CA_n260(6A-P)
CA_n260(5A-2P)
CA_n260(8A-O)
CA_n260(7A-2O)
CA_n260(2O-P)
CA_n260(O-2P)
CA_n261(A-D-O)
CA_n261(A-2O)
CA_n261(D-2O)
CA_n261(A-2G-O)
CA_n261(A-G-2O)
CA_n261(2G-2O)
CA_n261(A-3G)
CA_n261(A-2G-O)
CA_n261(3G-O)
CA_n261(A-3G)
CA_n261(A-3O)
CA_n261(A-6O)
CA_n261(A-P)
CA_n261(A-Q)
CA_n260(A-G-2O)
CA_n260(2A-O-P)
CA_n260(A-2O-P)
CA_n260(A-O-2P)
CA_n260(A-2O-P)
CA_n260(2A-O-Q)
CA_n260(A-2O-Q)
CA_n260(2A-2Q)
CA_n260(A-O-2Q)
CA_n260(2O-2Q)
CA_n260(3A-Q)
CA_n260(O-P)
CA_n260(A-3P)
CA_n260(5A-O)
CA_n260(5A-P)
CA_n260(4A-2P)
CA_n260(7A-O)
CA_n261(A-O)
CA_n261(A-2G)
CA_n261(A-G-O)
CA_n261(2G-O)
CA_n261(G-2O)
CA_n261(3O)
CA_n261(A-5O)
CA_n261(6O)
CA_n260(2A-Q)
CA_n260(A-O-Q)
CA_n260(2O-Q)
CA_n260(A-2Q)
CA_n260(O-2Q)
CA_n260(4A-P)
CA_n260(3A-2P)
CA_n261(G-O)
CA_n261(5O)
CA_n260(O-Q)
CA_n258(2A)
CA_n258(3A)
CA_n258(4A)
CA_n258(5A)
CA_n260(G-H)
CA_n261(A-J)
CA_n261(A-K)
CA_n261(2A-G)
CA_n261(2A-H)
CA_n261(2A-I)
CA_n261(3A-G)
This TR contains a band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
38.716-02-00
|
NR inter-band Carrier Aggregation (CA) / Dual Connectivity (DC) Rel-16 for 2 bands Down Link (DL) / x bands Up Link (UL) (x = 1, 2)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.716-02-00/38716-02-00-g00.zip
|
The present document is a technical report for NR inter-band CA and DC for 2 bands DL with up to 2 bands UL under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address NR inter-band CA and DC for 2 bands DL with up to 2 bands UL for the Rel-16 band combinations in Table 1-1 to Table 1-3
Table 1-1: Release 16 Inter-band NR CA for 2 bands DL with 1 band UL
CA combination
REL independent from
n1-n3
Rel-15
n1-n7
Rel-15
n1-n8
Rel-15
n1-n28
Rel-15
n1-n40
Rel-15
n1-n41
Rel-15
n1-n77
Rel-15
n1-n78
Rel-15
n1-n79
Rel-15
n1-n257
Rel-15
n2-n5
Rel-15
n2-n48
Rel-15
n2-n66
Rel-15
n2-n77
Rel-15
n2-n78
Rel-15
n3-n7
n3-n8
n3-n8
Rel-15
n3-n28
Rel-15
n3-n38
Rel-15
n3-n40
Rel-15
n3-n41
Rel-15
n3-n77
Rel-15
n3-n79
Rel-15
n3-n257
Rel-15
n5-n7
Rel-15
n5-n66
Rel-15
n5-n77
Rel-15
n5-n78
Rel-15
n5-n79
Rel-15
n5-n260
Rel-15
n5-n261
Rel-15
n7-n25
Rel-15
n7-n28
Rel-15
n7-n66
Rel-15
n7-n78
Rel-15
n8-n39
Rel-15
n8-n40
Rel-15
n8-n41
Rel-15
n8-n79
Rel-15
n20-n7
Rel-15
n20-n28
Rel-15
n20-n78
Rel-15
n25-n41
Rel-15
n25-n66
Rel-15
n25-n71
Rel-15
n25-n78
Rel-15
n25-n260
Rel-15
n25-n261
Rel-15
n28-n40
Rel-15
n28-n41
Rel-15
n28-n50
Rel-15
n28-n77
Rel-15
n28-n78
Rel-15
n29-n66
Rel-15
n29-n70
Rel-15
n28-n257
Rel-15
n38-n78
Rel-15
n39-n40
Rel-15
n39-n41
Rel-15
n39-n79
Rel-15
n40-n41
Rel-15
n40-n78
Rel-15
n40-n79
Rel-15
n41-n50
Rel-15
n41-n66
Rel-15
n41-n71
Rel-15
n41-n79
Rel-15
n41-n260
Rel-15
n41-n261
Rel-15
n48-n66
Rel-15
n50-n78
Rel-15
n66-n78
Rel-15
n66-n70
Rel-15
n66-n71
Rel-15
n66-n77
Rel-15
n66-n78
Rel-15
n66-n260
Rel-15
n66-n261
Rel-15
n70-n71
Rel-15
n71-n260
Rel-15
n71-n261
Rel-15
n77-n257
Rel-15
n77-n258
Rel-15
n77-n261
Rel-15
n78-n92
Rel-15
n78-n257
Rel-15
n78-n258
Rel-15
n79-n258
Rel-15
Table 1-2: Release 16 Inter-band NR CA for 2 bands DL with 2 bands UL
CA combination
REL independent from
n1-n3
Rel-15
n1-n7
Rel-15
n1-n8
Rel-15
n1-n28
Rel-15
n1-n40
Rel-15
n1-n41
Rel-15
n1-n78
Rel-15
n1-n79
Rel-15
n1-n257
Rel-15
n2-n5
Rel-15
n2-n48
Rel-15
n2-n66
Rel-15
n2-n77
Rel-15
n2-n78
Rel-15
n3-n8
Rel-15
n3-n28
Rel-15
n3-n38
Rel-15
n3-n40
Rel-15
n3-n41
Rel-15
n3-n77
Rel-15
n3-n79
Rel-15
n3-n257
Rel-15
n5-n7
Rel-15
n5-n66
Rel-15
n5-n77
Rel-15
n5-n78
Rel-15
n5-n79
Rel-15
n5-n260
Rel-15
n5-n261
Rel-15
n7-n28
Rel-15
n7-n66
Rel-15
n7-n78
Rel-15
n8-n39
Rel-15
n8-n40
Rel-15
n8-n41
Rel-15
n8-n79
Rel-15
n20-n7
Rel-15
n20-n28
Rel-15
n20-n78
Rel-15
n25-n41
Rel-15
n25-n66
Rel-15
n25-n71
Rel-15
n25-n78
Rel-15
n28-n40
Rel-15
n28-n41
Rel-15
n28-n50
Rel-15
n28-n78
Rel-15
n28-n257
Rel-15
n38-n78
Rel-15
n39-n40
Rel-15
n39-n41
Rel-15
n39-n79
Rel-15
n40-n41
Rel-15
n40-n79
Rel-15
n41-n50
Rel-15
n41-n66
Rel-15
n41-n71
Rel-15
n41-n78
Rel-15
n41-n79
Rel-15
n48-n66
Rel-15
n50-n78
Rel-15
n66-n77
Rel-15
n66-n78
Rel-15
n77-n257
Rel-15
n77-n261
Rel-15
n78-n92
Rell-15
n78-n257
Rel-15
Table 1-3: Release 16 Inter-band DC for 2 bands
DC combination
REL independent from
This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
38.716-03-01
|
NR inter-band Carrier Aggregation (CA) / Dual Connectivity (DC) Rel-16 for 3 bands Down Link (DL) / 1 bands Up Link (UL)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.716-03-01/38716-03-01-g00.zip
|
The present document is a technical report for NR 3DL/1UL Inter-band Carrier Aggregation. The purpose is to gather the relevant background information and studies in order to address 3DL/1UL Inter-band Carrier Aggregation requirements for the Rel-16 band combinations in Table 1-1. UL carrier shall be supported in each of the 3 bands being aggregated unless otherwise specified.
Table 1-1: Release 16 3DL/1UL inter-band carrier aggregation combinations
CA combination
REL independent from
CA_x1A-yA-zA
The present document contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
38.716-03-02
|
NR inter-band Carrier Aggregation (CA) / Dual Connectivity (DC) Rel-16 for 3 bands Down Link (DL) / 2 bands Up Link (UL)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.716-03-02/38716-03-02-g00.zip
|
The present document is a technical report for NR inter-band CA and DC for 3 bands DL with 2 bands UL under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address NR inter-band CA and DC for 3 bands DL with 2 bands UL for the Rel-16 band combinations in Table 1-1 to Table 1-3
Table 1-1: Release 16 Inter-band NR CA for 3 bands DL with 2 band UL
CA combination
REL independent from
n1-n3-n41
Rel-15
n1-n3-n78
Rel-15
n1-n7-n28
Rel-15
n3-n8-n78
Rel-15
n3-n77-n257
Rel-15
n3-n28-n77
Rel-15
n3-n78-n257
Rel-15
n3-n40-n41
Rel-15
n28-n77-n257
Rel-15
n28-n78-n257
Rel-15
n40-n41-n79
Rel-15
n66-n70-n71
Rel-15
n77-n79-n257
Rel-15
n78-n79-n257
Rel-15
Table 1-2: Release 16 Inter-band NR DC for 3 bands DL
DC combination
REL independent from
This TR contains a general part and band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
38.716-04-01
|
NR inter-band Carrier Aggregation (CA) Rel-16 for 4 bands Down Link (DL) / 1 bands Up Link (UL)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.716-04-01/38716-04-01-g00.zip
|
The present document is a technical report on inter-band CA for 4 bands DL with 1 band UL under Rel-16 time frame. The purpose is to gather the relevant background information and studies in order to address 4 bands DL/1 band UL Inter-band Carrier Aggregation requirements for the Rel-16 band combinations in Table 1-1.
Table 1-1: Release 16 4 bands DL/1 band UL inter-band carrier aggregation combinations
CA combination
CA_n1A-n3A-n8A-n78A
CA_n1A-n3A-n28A-n78A
CA_n3A-n28A-n77A-n257A
CA_n3A-n28A-n77A-n257D
CA_n3A-n28A-n77A-n257G
CA_n3A-n28A-n77A-n257H
CA_n3A-n28A-n77A-n257I
CA_n3A-n28A-n78A-n257A
CA_n3A-n28A-n78A-n257D
CA_n3A-n28A-n78A-n257G
CA_n3A-n28A-n78A-n257H
CA_n3A-n28A-n78A-n257I
CA_n3A-n28A-n77(2A)-n257A
CA_n3A-n28A-n77(2A)-n257D
CA_n3A-n28A-n77(2A)-n257G
CA_n3A-n28A-n77(2A)-n257H
CA_n3A-n28A-n77(2A)-n257I
CA_n3A-n28A-n77(3A)-n257A
CA_n3A-n28A-n77(3A)-n257D
CA_n3A-n28A-n77(3A)-n257G
CA_n3A-n28A-n77(3A)-n257H
CA_n3A-n28A-n77(3A)-n257I
CA_n7A-n25A-n66A-n78A
CA_n1A-n3A-n7A-n28A
CA_n1A-n3A-n7B-n28A
CA_n1A-n3A-n7A-n78A
CA_n1A-n3A-n7B-n78A
CA_n3A-n7A-n28A-n78A
CA_n3A-n7B-n28A-n78A
CA_n2A-n5A-n66A-n260A
CA_n2A-n5A-n30A-n260A
CA_n5A-n30A-n66A-n260A
CA_n2A-n30A-n66A-n260A
CA_n2A-n5A-n66A-n260M
CA_n2A-n5A-n30A-n260M
CA_n5A-n30A-n66A-n260M
CA_n2A-n30A-n66A-n260M
CA_n2(2A)-n5A-n30A-n66A
CA_n2A-n5A-n30A-n66(2A)
CA_n2A-n5A-n30A-n66A
This TR contains a band specific combination part. The actual requirements are added to the corresponding technical specifications.
|
38.807
|
Study on requirements for NR beyond 52.6 GHz
|
TR
|
16.1.0
|
RP
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.807/38807-g10.zip
|
This documents is to provide uses cases and deployment scenarios for NR system operation in carriers between 52.6 GHz and 100 GHz and also provide operational and system design requirements, which can facilitate 3GPP's future enhancements to NR beyond 52.6GHz. NR physical layer channels in Release 15 were designed to be optimized for uses under 52.6 GHz and with the potential to be used for above 52.6 GHz. In general, high frequencies are faced with more challenges, such as higher phase noise, larger propagation loss, and lower power amplifier efficiency, compared to low frequency bands. Additionally, the frequency ranges above 52.6 GHz potentially contain larger spectrum allocations and larger bandwidths that are not available for bands lower than 52.6 GHz and may support widely ranging use cases, such as V2X, IAB, NR licensed and unlicensed, fixed wireless access, Wireless HDMI, Industrial Automation/IoT, and non-terrestrial operations. With the aim of enabling and optimizing 3GPP NR systems for operation in above 52.6 GHz, as originally planned during the NR SI (TR 38.913 [4]), 3GPP should further work on physical layer channels including potential introduction of new waveform, procedures, and requirements, etc., where the operation is applicable for operations in licensed and unlicensed spectrum, to WAN operation, private networks, Integrated Access Backhaul (IAB), ITS application using vehicular communications (V2X), etc.
The objectives of the study item are the following [2]:
- identify target spectrum ranges, including survey on global spectrum availability, regulatory requirements, channelization, and licensing regimes,
- identify potential use cases and deployment scenarios,
- identify NR design requirements and considerations on top of regulatory requirements.
|
38.809
|
NR; Background for integrated access and backhaul radio transmission and reception
|
TR
|
16.6.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.809/38809-g60.zip
|
The present document is the Technical Report for the Work Item on Integrated Access and Backhaul for NR. The present document captures the background and the decisions on IAB requirements.
|
38.810
|
NR; Study on test methods
|
TR
|
16.7.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.810/38810-g70.zip
|
The objective of this study is to define the over the air (OTA) testing methodology for UE RF, UE RRM, and UE demodulation requirements for New Radio, the associated measurement uncertainty budget(s), and the related test tolerances.
The testing methodology development targets frequencies in FR2, and the work is prioritized according to the frequency ranges that are included in the NR work item.
For mmWave NR UEs, RF requirements are specified as OTA requirements, using the applicable metrics. The definitions of these requirements are expected to align the spatial coverage of the requirement with the UE's working condition acceptable in expected directions. NR is expected to be used in more than one type of UEs, and different spatial coverage requirements may apply to different UE types.
|
38.812
|
Study on Non-Orthogonal Multiple Access (NOMA) for NR
|
TR
|
16.0.0
|
R1
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.812/38812-g00.zip
|
This document is intended to gather all technical outcome of the study item "Study on non-orthogonal multiple access (NOMA) for NR" [2], and draw a conclusion on a way forward.
This activity involves the Radio Access work area of the 3GPP studies and has impacts both on the Mobile Equipment and Access Network of the 3GPP systems.
|
38.817-01
|
General aspects for User Equipment (UE) Radio Frequency (RF) for NR
|
TR
|
16.4.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.817-01/38817-01-g40.zip
|
The present document is a technical report for the work item on Work Item on New Radio (NR) Access Technology, covering the general aspects for RF, RRM and demodulation for NR.
|
38.819
|
LTE Band 65 for NR (n65)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.819/38819-g00.zip
|
The present document is a technical report for the work item of Band 65 for New Radio.
|
38.820
|
Study on the 7 to 24 GHz frequency range for NR
|
TR
|
16.1.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.820/38820-g10.zip
|
The present document is a technical report for the study item on 7.125 – 24.250 GHz frequency range, covering the regulatory framework study, general RF aspects, as well as BS- and UE-specific aspects.
During the NR study item in Rel-14, frequency range of 6 – 24 GHz was discussed as part of the RAN WG4 studies. This frequency range was included within the Rel-14 study item objectives and the operational requirements for Next Generation access technologies described in TR 38.913 [2].
As the frequencies below 7.125 GHz and above 24.25 GHz (i.e. up to 52.6 GHz) were already addressed in Rel‑15 NR specifications, the discussion on the 7 - 24 GHz intermediate range was triggered at later stage.
NOTE 1: During Rel-15 work on NR frequency bands, the FR1 frequency range was initially defined up to 6 GHz. At later stage of Rel-15, the FR1 was agreed at RAN#82 meeting to be extended up to 7.125 GHz in order to incorporate the NR-U work and potential licensed operation.
NOTE 2: For simplicity purposes, whenever the term “7 – 24 GHz” will be used in this technical report, the frequency range of 7.125 – 24.250 GHz shall be considered.
This TR intends to provide information on the feasibility of NR operation in 7 – 24 GHz frequency range for set of potential deployment scenarios, considering BS RF and UE RF technology capabilities taking into account possible ranges for key requirements.
This TR does not intend to provide specific recommendations on NR system parameter values to be defined, nor specific RF or EMC requirement values to be defined for UE or BS operation in this frequency range, as those aspects are considered to be covered by the follow-up WI.
|
38.821
|
Solutions for NR to support Non-Terrestrial Networks (NTN)
|
TR
|
16.2.0
|
R3
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.821/38821-g20.zip
|
The objectives for this document are, based on the outcomes of the TR 38.811 [2], to study a set of necessary features/adaptations enabling the operation of the New Radio (NR) protocol in non-terrestrial networks for 3GPP Release 16 with a priority on satellite access. Access network based on Unmanned Aerial System (UAS) including High Altitude Platform Station (HAPS) could be considered as a special case of non-terrestrial access with lower delay/Doppler value and variation rate.
The objectives for the study are the following
● Consolidation of potential impacts on the physical layer and definition of related solutions if needed
● Performance assessment of NR in selected deployment scenarios (LEO based satellite access, GEO based satellite access) through link level (Radio link) and system level (cell) simulations
● Study and define related solutions if needed on NR related Layer 2 and 3
● Study and define related solutions if needed on RAN architecture and related interface protocols
NOTE: As far as architecture issues are concerned, this TR supersedes TR 38.811 [2]
|
38.823
|
Study of further enhancement for disaggregated gNB
|
TR
|
16.0.0
|
R3
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.823/38823-g00.zip
|
The present document is related to the technical report of the study item " Study on Enhancement for Disaggregated gNB " [2].
This activity involves the Radio Access work area of the 3GPP studies and has impacts on the Access Network of the 3GPP systems.
The present document gathers all technical outcome of the study item, and draws a conclusion on the way forward.
|
38.824
|
Study on physical layer enhancements for NR ultra-reliable and low latency case (URLLC)
|
TR
|
16.0.0
|
R1
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.824/38824-g00.zip
|
The present document captures the results and findings from the study item "Study on physical layer enhancements for NR Ultra Reliable Low Latency Communication (URLLC)" [2][3]. The purpose of this TR is to document the baseline performance achievable with Rel-15 NR URLLC considering the prioritized URLLC use cases identified in [2][3], and to document the evaluation and findings of the potential enhancements for the prioritized URLLC use cases. However, this does not imply that NR Rel-16 URLLC is necessarily restricted to the identified use cases in [2][3].
This activity involves the Radio Access work area of the 3GPP studies and has potential impacts both on the Mobile Equipment and Access Network of the 3GPP systems.
This document is a 'living' document, i.e. it is permanently updated and presented to TSG-RAN meetings.
|
38.825
|
Study on NR industrial Internet of Things (IoT)
|
TR
|
16.0.0
|
R2
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.825/38825-g00.zip
| |
38.826
|
Study on evaluation for 2 receiver exception in Rel-15 vehicle mounted User Equipment (UE) for NR
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.826/38826-g00.zip
|
The present document is a technical report for NR vehicle mounted UE with 2Rx antenna at FR1 in Rel-15. The purpose is to gather the relevant background information and studies in order to address 2Rx exception for NR vehicular UEs in a few specific NR bands such as n7, n38, n41, n77, n78 and n79 since NR UE shall be equipped with 4Rx ports as a baseline is mandated for these NR bands.
To allow 2 RX exception for vehicular UEs, as requested by 5GAA, it is essential for 3GPP RAN 4 to further study the design of telematics control units (TCU) in vehicles to gain confidence that performance is not degraded at system level by deploying 2 RX. As a part of allowing the 2 RX exception, RAN 4 needs to evaluate identification of vehicle mounted UEs in the network and corresponding test methods
This Technical Report contains the evaluation results for the impact of 2Rx vehicle mounted UE on coverage and throughput considering the realistic RF architecture and link budget with reasonable antenna gain of 2Rx vehicle UE. Also propose the methods to distinguish vehicle UE from handheld UE to verify conformance and GCF certification.
|
38.827
|
Study on radiated metrics and test methodology for the verification of multi-antenna reception performance of NR User Equipment (UE)
|
TR
|
16.8.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.827/38827-g80.zip
|
The present document is the technical report for the study item on NR MIMO OTA, which was approved at TSG RAN#80 [2]. The scope of the SI is to define the radiated metrics and end-to-end test methodology for the verification of multi-antenna reception performance of NR UEs in FR1 and FR2 and the associated preliminary measurement uncertainty budgets.
|
38.828
|
Cross Link Interference (CLI) handling and Remote Interference Management (RIM) for NR
|
TR
|
16.1.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.828/38828-g10.zip
|
The present document provides the results of co-existence evaluation for CLI and RIM for NR.
|
38.831
|
User Equipment (UE) Radio Frequency (RF) requirements for Frequency Range 2 (FR2)
|
TR
|
16.1.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.831/38831-g10.zip
|
The present document is technical report for NR RF Requirement Enhancements for FR2 WI.
|
38.840
|
Study on User Equipment (UE) power saving in NR
|
TR
|
16.0.0
|
R1
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.840/38840-g00.zip
|
The present document captures the findings of the study item, "Study on UE Power Saving in NR" [2]. The purpose of this TR is to study the UE power saving framework taking into consideration of latency and performance in NR as well as network impact. The study of UE power saving in NR includes the study of the power saving schemes and the associated procedures. The power saving schemes are to study the UE adaptation to the traffic and UE power consumption characteristics in frequency, time, antenna domains, DRX configuration, and UE processing timeline for UE power saving. The power saving signal/channel/procedure is used for triggering adaptation of UE power consumption characteristic. The power saving study also considers UE power consumption reduction in RRM measurements. The associated procedures for the power saving schemes include the enhancement of UE paging procedure based on the additional power saving signal/channel/procedure and the UE power saving procedure in supporting efficient transition from RRC_CONNECTED to RRC_IDLE/RRC_INACTIVE mode.
This document is a 'living' document, i.e. it is permanently updated and presented to TSG-RAN meetings.
|
38.855
|
Study on NR positioning support
|
TR
|
16.0.0
|
R1
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.855/38855-g00.zip
|
The present document captures the findings of the study item "Study on NR positioning support" [1]. The purpose of the present document is to support NR positioning in TSG RAN WG1, WG2 and WG3 to properly model and evaluate the performance of NR positioning solutions in deployment scenarios representing relevant use cases, both regulatory and commercial.
|
38.856
|
Study on local NR positioning in NG-RAN
|
TR
|
16.0.0
|
R3
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.856/38856-g00.zip
|
The present document captures the studies on the feasibility and specification impact of local location management functionality and of the NG RAN acting as LCS client.
|
38.866
|
Study on remote interference management for NR
|
TR
|
16.1.0
|
R1
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.866/38866-g10.zip
|
The present document captures the findings and results from the study item "Study on remote interference management for NR" [2]. The objective of this SI is to investigate possible mechanisms for mitigating the impact of remote base station interference in unpaired spectrum focusing on synchronized macro cells with semi-static DL/UL configuration in co-channel, including:
- Study mechanisms for improving network robustness and addressing strong remote base station interference, including potential UE side's enhancement [RAN1]
- Study mechanisms for identifying which gNB(s) generate strong remote interference, including the following aspects:
- Potential Reference signal design for gNB to identify that it creates strong inter-gNB interference to some victim gNB [RAN1]
- Existing reference signals are starting points of discussion.
- Mechanism for gNB to start and terminate the transmission/detection of the reference signal(s) [RAN1, RAN3]
- Study the potential additional coordination among gNBs for mitigating remote interference [RAN3]
This document is a 'living' document, i.e. it is permanently updated and presented to TSG-RAN meetings.
|
38.873
|
Time Division Duplex (TDD) operating band in Band n48
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.873/38873-g00.zip
|
The present document is a technical report for the work item of TDD operating band in Band n48.
|
38.874
|
NR; Study on integrated access and backhaul
|
TR
|
16.0.0
|
R2
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.874/38874-g00.zip
|
The present document is related to the study item "Integrated Access and Backhaul" [1].
The document describes the architectures, the radio protocols, and the physical layer aspects related to relaying of access traffic by sharing radio resources between access and backhaul links.
|
38.883
|
Study on support of NR downlink 256 Quadrature Amplitude Modulation (QAM) for frequency range 2 (FR2)
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.883/38883-g00.zip
|
The present document captures finding of the study on support of NR DL 256QAM for FR2. The purpose of this TR is to study the feasibility and performance benefits for NR DL 256QAM for FR2 as defined in Work Item “Add support of NR DL 256QAM for FR2” [2].
|
38.885
|
Study on NR Vehicle-to-Everything (V2X)
|
TR
|
16.0.0
|
R1
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.885/38885-g00.zip
|
The present document captures the findings of the study item, "Study on NR Vehicle-to-Everything" [2]. The purpose of this TR is to is to study how to support advanced V2X use cases identified in [3], among other matters. However, this does not imply that NR V2X capability is necessarily restricted to advanced services. It is up to the regional regulators and the stakeholders involved (i.e. car OEMs and the automotive ecosystem in general) to decide on the technology of choice for the services and use cases.
This document addresses NR SL design for V2X; Uu enhancements for advanced V2X use cases; Uu-based SL resource allocation/configuration by LTE and NR; RAT and interface selection; QoS management; and non-cochannel coexistence between NR and LTE SLs. The study addresses unlicensed ITS bands and licensed bands in FR1 and FR2, up to 52.6 GHz.
This document is a 'living' document, i.e. it is permanently updated and presented to TSG-RAN meetings.
|
38.886
|
V2X Services based on NR; User Equipment (UE) radio transmission and reception
|
TR
|
16.3.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.886/38886-g30.zip
|
The present document is a technical report for NR V2X services with sidelink operation in Rel-16. The purpose is to specify radio solutions that are necessary for NR to support advanced V2X services (except the remote driving use case which was studied in TR 38.824) based on the study outcome captured in TR 38.885.
1. NR sidelink: Specify NR sidelink solutions necessary to support sidelink unicast, sidelink groupcast, and sidelink broadcast for V2X services, considering in-network coverage, out-of-network coverage, and partial network coverage.
The solutions should cover both the operating scenario where the carrier(s) is/are dedicated to V2X services and the operating scenario where the carrier(s) is/are licensed spectrum and also used for NR Uu/LTE Uu operation.
NR sidelink design starts with frequencies in FR1, and NR sidelink in FR2 is supported by applying the design for FR1 and PT-RS to the numerologies agreed for FR2. No FR2 specific optimization is supported in this WI except PT-RS. No beam management is supported in this work.
For the scenarios of NR sidelink carrier, this work will consider a single carrier for the NR sidelink transmission and reception.
In this work, 2Rx antennas as well as 4Rx antennas are supported. The full range of speeds defined in SA1 (TS 22.186) needs to be supported in FR1.
2. Specify support for NR Uu to provide control for LTE sidelink
3. Specify UE report to assist gNB scheduling
4. Specify support for QoS management
This Technical Report focus on NR sidelink UE Tx/Rx RF requirements and contains the adjacent channel coexistence evaluation results for NR sidelink operation at both licensed bands and the dedicated ITS spectrum for V2X service.
|
38.887
|
TDD operating band in Band n259
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.887/38887-g00.zip
| |
38.888
|
Adding wider channel bandwidth in NR band n28
|
TR
|
16.0.0
|
R4
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.888/38888-g00.zip
|
The present document is a technical report for adding wider channel bandwidths in NR band n28.
|
38.889
|
Study on NR-based access to unlicensed spectrum
|
TR
|
16.0.0
|
R1
|
https://www.3gpp.org/ftp/Specs/archive/38_series/38.889/38889-g00.zip
|
The present document contains the results and findings from the study item, "Study on NR-based Access to Unlicensed Spectrum" [2]. The purpose of this TR is to document the identified NR enhancements and corresponding evaluations for a single global solution framework for NR based access to unlicensed spectrum.
This document addresses evaluation methodology and possible scenarios for NR based unlicensed deployments.
This technical report documents the existing regulatory requirements for unlicensed spectrum deployment in the 5GHz bands, [and other bands]
This document identifies and captures coexistence evaluations of physical layer options and enhancements to NR and, if necessary, NR RAN protocols to meet the requirements and targets for unlicensed spectrum deployments.
This document contains an assessment of the feasibility of base station and terminal operation of 5GHz band (based on regulatory limits) in conjunction with relevant licensed frequency bands.
This document is a 'living' document, i.e. it is permanently updated and presented to TSG-RAN meetings.
|
21.866
|
Study on Energy Efficiency Aspects of 3GPP Standards
|
TR
|
15.0.0
|
SP
|
https://www.3gpp.org/ftp/Specs/archive/21_series/21.866/21866-f00.zip
|
The present document identifies and studies the key issues and the potential solutions in defining Energy Efficiency Key Performance Indicators and the Energy Efficiency optimization operations in existing and future 3GPP networks.
The study includes:
- identifying the 3GPP system wide high-level goals and feasible tasks including the definition of system-wide energy efficiency KPIs where it is applicable to systematically address energy efficiency aspects more effectively;
- investigating feasible common approaches and methodology including the assessment of the relevance and the applicability of existing energy efficiency definitions and the related work to address and improve 3GPP system-wide energy efficiency.
Recommendations are provided applicable to EPS (taking into account backward compatibility to legacy UEs), and to 5G systems.
|
21.915
|
Release 15 Description; Summary of Rel-15 Work Items
|
TR
|
15.0.0
|
SP
|
https://www.3gpp.org/ftp/Specs/archive/21_series/21.915/21915-f00.zip
|
The present document provides a summary of each Release 15 Feature or, whenever needed, of each significant Work Item.
The information provided in the present document is limited to an overview of each Feature, explaining briefly its purpose and the main lines of the system's behaviour to execute the Feature.
More information is available by consulting the 3GPP Ultimate web site, as explained in "Annex C: Process to get further information".
The present document presents the "initial state" of the Features introduced in Release 15, i.e. as they are by the time of publication of the present document. Each Feature is subject to be later modified or enhanced, over several years, by the means of Change Requests (CRs). It is therefore recommended to retrieve all the CRs which relate to the given Feature, as explained in Annex C, to further outline a feature at a given time.
|
22.820
|
Study on Provision of Local Operator Services
|
TR
|
15.0.0
|
S1
|
https://www.3gpp.org/ftp/Specs/archive/22_series/22.820/22820-f00.zip
|
The present document describes the use cases and potential requirements for an optional capability allowing an operator to provide access to restricted local operator services. Based on operator policy, access to these restricted local operator services is allowed for unauthenticated UEs. In such cases, the unauthenticated UE is restricted to only accessing a restricted local operator service. Any other access attempts by the UE are subject to normal 3GPP processing, including authentication.
|
22.864
|
Feasibility study on new services and markets technology enablers for network operation; Stage 1
|
TR
|
15.0.0
|
S1
|
https://www.3gpp.org/ftp/Specs/archive/22_series/22.864/22864-f00.zip
|
Emerging from the FS_SMARTER work [2], the present document aims to identify and document the key families of use cases and their consolidated potential requirements, and to capture desired system requirements and capabilities to enable 3GPP network operators to support the needs of new scenarios and markets related to network operation.
The focus of this work is on the use cases and requirements that cannot be met with EPS.
|
23.722
|
Study on common Application Programming Interface (API) framework for 3GPP northbound APIs
|
TR
|
15.1.0
|
S6
|
https://www.3gpp.org/ftp/Specs/archive/23_series/23.722/23722-f10.zip
|
The present document is a technical report which identifies the architecture aspects necessary for the development of a CAPIF for 3GPP northbound APIs, and corresponding architectural solutions. The aspects of the study include identifying architecture requirements for the CAPIF (e.g. registration, discovery, identity management) that are applicable to any service APIs when used by northbound entities, as well as any interactions between the CAPIF and the service APIs themselves.
The study takes into consideration the existing work within 3GPP related to APIs as well as API frameworks defined outside 3GPP. The recommendations from the study include architecture solutions that may be considered for normative work, based on the gap analysis of the identified architecture requirements and the existing solutions.
|
23.723
|
Study of system level impacts due to introduction of light connection for LTE in EPS
|
TR
|
0.2.0
|
S2
|
https://www.3gpp.org/ftp/Specs/archive/23_series/23.723/23723-020.zip
|
This document is a study into the system level aspects and impact analysis due to the introduction of a substate of RRC CONNECTED (and ECM-CONNECTED) in the RAN known as Light RRC Connection.
The study will identify suitable solutions that allow the Light RRC Connection feature to be considered complete and deployable from a system level perspective.
The study is expected to produce an evaluation of Light RRC Connection from a system architecture point of view and a conclusion.
|
23.729
|
Study on unlicensed spectrum offloading system enhancements
|
TR
|
15.0.0
|
S2
|
https://www.3gpp.org/ftp/Specs/archive/23_series/23.729/23729-f00.zip
|
3GPP RAN in Rel-13 has worked on integrating "unlicensed access" in RAN, including LTE-WiFi aggregation and LAA. More generically, the work is targeted at several scenarios where the UE is connected to two accesses at once, i.e., a primary access and a secondary access, where the secondary access operates in unlicensed spectrum. The secondary access may be represented by a LAA cell or a WLAN including a set of one or more WLAN APs.
The following two scenarios are considered as per the Rel-14 RAN architecture (TS 36.300 [3]):
- eNB with LTE (primary) + LTE-LAA (secondary) access.
- eNB with LTE (primary) + WLAN (secondary) access.
In both scenarios, the mechanisms defined so far are aiming to make the aggregation of licensed and unlicensed spectrum transparent to the core network elements. In particular, S-GW, PDN GW and PCC elements are not aware of whether the data packets of a PDN or Service Data Flow are being routed (on uplink, downlink or both) on the licensed spectrum cell or the unlicensed spectrum cell.
This TR will study mechanisms to:
- Enable the 3GPP system to differentiate traffic which was transported over unlicensed access in non-roaming and roaming cases.
- Ensure the granularity of data collected for data usage over unlicensed access is as required in order to enable its use for the particular operating purpose (e.g. accounting, charging and network planning). Depending on the operating purpose it can be determined whether the data usage collection is e.g. "per UE" or "average across multiple UEs" etc.
For the aspects above, it is desirable to develop a common framework for LAA and for LWA/LWIP taking into account the Rel-14 RAN architecture, in order to minimize the system impacts and increase flexibility of introducing the LAA and LWA/LWIP solutions in the RAN deployment of an operator.
Interaction with RAN WGs is required to assess solutions that affect the RAN. This work will provide input to SA WG5 for the charging aspects if any identified.
|
23.733
|
Study on architecture enhancements to Proximity Services (ProSe) UE-to-Network relay
|
TR
|
15.1.0
|
S2
|
https://www.3gpp.org/ftp/Specs/archive/23_series/23.733/23733-f10.zip
|
The present document is the Technical Report for the study item "Study on architecture enhancements to ProSe UE-to-Network Relay". Its objective is to study and evaluate potential architecture enhancements needed to support the connection of an Evolved ProSe Remote UE with UICC with the network via an Evolved ProSe UE-to-Network Relay using E-UTRA (in coverage, in enhanced coverage or out of coverage) or Non-3GPP access technologies (enhancements to Non-3GPP access technologies are not part of this study).
|
23.751
|
Study on support of voice over WLAN
|
TR
|
15.0.0
|
S2
|
https://www.3gpp.org/ftp/Specs/archive/23_series/23.751/23751-f00.zip
|
The present document studies enhancements required for the support of VoIMS via Trusted and Untrusted WLAN access related with QoS differentiation for better user experience.
This includes:
- potential user plane impacts for the support of QoS differentiation;
- potential UE-TWAN and UE-ePDG signalling enhancements for the support of QoS differentiation.
|
23.759
|
Study for enhanced Voice Over LTE (VoLTE) Performance
|
TR
|
15.0.0
|
S2
|
https://www.3gpp.org/ftp/Specs/archive/23_series/23.759/23759-f00.zip
|
Investigate E2E solutions to be able to avoid/minimize the probability of HOs for e.g. VoLTE/ViLTE.
|
23.781
|
Study on migration and interconnection for mission critical services
|
TR
|
15.0.0
|
S6
|
https://www.3gpp.org/ftp/Specs/archive/23_series/23.781/23781-f00.zip
|
The present document studies solutions to satisfy the requirements for interconnection and migration between Mission Critical systems. It may identify enhancements to be included in the Technical Specifications for those services. Requirements for this study are taken from the Stage 1 requirements, including 3GPP TS 22.179 [2], 3GPP TS 22.280 [3], 3GPP TS 22.281 [4] and 3GPP TS 22.282 [5].
|
23.782
|
Study on mission critical communication interworking between LTE and non-LTE systems
|
TR
|
15.0.0
|
S6
|
https://www.3gpp.org/ftp/Specs/archive/23_series/23.782/23782-f00.zip
|
The objective of this technical report is to study and identify solutions suitable for interworking between LTE mission critical systems and non-LTE mission critical systems that satisfy the MCPTT requirements in 3GPP TS 22.179 [2] and the MCData requirements in 3GPP TS 22.282 [20] (SDS only).
The present document refers to an IWF entity as an editorial convenience. The structure and functionality of the IWF is out of scope of the present document. The definition of IWF-1 and interactions with IWF-1 by the MCPTT system and the definition of IWF-2 and interactions with IWF-2 by the MCData (SDS only) are in scope of the present document.
|
23.790
|
Study on application architecture for the Future Railway Mobile Communication System (FRMCS); Stage 2
|
TR
|
15.0.0
|
S6
|
https://www.3gpp.org/ftp/Specs/archive/23_series/23.790/23790-f00.zip
|
The present document identifies gaps between the FRMCS requirements and stage 2 mission critical services specifications. For those gaps that cannot be fulfilled by the existing architecture, functional architecture enhancements, new procedures and information flows are documented and suggested as candidates for normative specifications.
The study takes existing 3GPP functionality and those specified for Mission Critical Communication in normative specifications 3GPP TS 23.379 [3] (MCPTT), 3GPP TS 23.280 [4] (Common functional architecture), 3GPP TS 23.281 [5] (Mission Critical Video) and 3GPP TS 23.282 [6] (Mission Critical Data) into account. Studies on migration and interconnection (3GPP TR 23.781 [7]) and interworking between LTE and non-LTE systems (3GPP TR 23.782 [8]) are considered.
|
23.798
|
Study on Isolated E-UTRAN Operation for Public Safety; Enhancements
|
TR
|
15.0.0
|
S2
|
https://www.3gpp.org/ftp/Specs/archive/23_series/23.798/23798-f00.zip
|
The present document studies potential enhancements to the "Isolated E-UTRAN Operation for Public Safety" feature specified in TS 23.401 [2].
Whereas this feature assumes a complete absence of backhaul, the present study considers following cases:
- the backhaul is not completely lost but suffers from a limited bandwidth, which does not suffice for normal operation; or
- the backhaul is completely lost and a backup link is set up (by means outside the scope of this study) to provide backhaul with a limited bandwidth as above.
Under such scenario it is desirable to use the available backhaul for signalling between an E-UTRAN site and other PLMN entities, for local mission critical communications. The present document studies enhancements to realize this in an optimal manner.
|
24.890
|
CT WG1 aspects of 5G; System Phase 1
|
TR
|
15.1.0
|
C1
|
https://www.3gpp.org/ftp/Specs/archive/24_series/24.890/24890-f10.zip
|
The present document discusses and describes the CT1 aspects of the 5G System phase 1. In particular, these CT1 aspects include the non-access-stratum (NAS) functions to be performed by the user equipment (UE) in idle mode and the NAS signalling procedures between the UE and the 5G System (5GS) phase 1.
The present document also considers the requirements on the NAS between the UE and the core network which arise from specific services such as public warning system (PWS), SMS over NAS, emergency services, location services (LCS), multimedia priority services (MPS), and also network functions such as access control, security, QoS, IMS, network sharing, charging, congestion and overload control. In addition, the document considers the case of network slicing as well as interworking with E-UTRAN connected to EPC.
The present document is intended as a holding place for CT1 5GS material until it stabilises sufficiently to be moved to appropriate 3GPP technical specifications.
|
25.708
|
Study on scheduling enhancements with carrier aggregation for UMTS
|
TR
|
15.0.0
|
RP
|
https://www.3gpp.org/ftp/Specs/archive/25_series/25.708/25708-f00.zip
|
Data scheduling on multi-carrier has been deployed to achieve higher data rates and load balancing. With the introduction of intra/inter-band features like DC-HSPA/DB-DC-HSPA, data can be scheduled over two carriers in the same band or in different bands. Along with the trend that the basic frequency for MBB coverage is a lower band, e.g. 900MHz, carrier aggregation of two carriers in a lower band and a higher band (cross band carrier aggregation), would become a typical deployment scenario for multi-carrier application.
In cross band carrier aggregation, the reliability of scheduling channels as HS-SCCH or E-AGCH, on the higher and lower frequency carriers is not the same. Assuming the primary carrier is the lower band, the scheduling channels on the secondary carrier are not as reliable as the ones on the primary carrier due to the higher path loss in the higher band.
Assuming scenarios where the secondary carrier operates in the higher frequency, in order to improve the performance of cross band carrier aggregation, the reliability of scheduling channels over the secondary carrier using the higher band should be investigated.
|
25.709
|
Study on a simplified HS-SCCH for UMTS
|
TR
|
15.0.0
|
RP
|
https://www.3gpp.org/ftp/Specs/archive/25_series/25.709/25709-f00.zip
|
The present document refers to a study on a simplified HS-SCCH for UMTS, which is aimed at simplifying the decoding of the HS-SCCH Type 1 for UEs undergoing bad radio conditions.
|
26.233
|
Transparent end-to-end Packet-switched Streaming service (PSS); General description
|
TS
|
15.0.0
|
S4
|
https://www.3gpp.org/ftp/Specs/archive/26_series/26.233/26233-f00.zip
|
The present document contains a general description of a transparent packet-switched streaming service in 3GPP-defined networks. In particular, it defines the usage scenarios, overall high-level end-to-end service concept, and lists terminal related functional components. It also lists any identified service interworking requirements.
|
26.818
|
Virtual Reality (VR) streaming audio; Characterization test results
|
TR
|
15.0.0
|
S4
|
https://www.3gpp.org/ftp/Specs/archive/26_series/26.818/26818-f00.zip
|
The present document is a collection of test results on candidate audio media profiles for VR streaming services over 3GPP. A brief description of the 3 tests characterizing the audio media profile performances is presented under clause 4. The following clauses provide the test results from the audio media profile proponent as well as those from the crosscheck labs. The four documented solutions are (in alphabetical order):
- DTS-UHD
- Metadata Assisted EVS Codec (MAEC)
- OMAF 3D Audio Baseline Profile
- Spatial AAC extension (spAACe)
|
26.861
|
Investigations on test methodologies for immersive audio systems
|
TR
|
15.0.0
|
S4
|
https://www.3gpp.org/ftp/Specs/archive/26_series/26.861/26861-f00.zip
|
The present document aims to:
1) Identify a minimum set of relevant perceptual audio quality attributes (e.g. timbre, localization, overall quality, etc.) for the assessment of immersive audio systems relevant to 3GPP.
2) Identify available test methodologies for the perceptual audio quality attributes of interest and their applicability in the context of immersive audio systems relevant to 3GPP.
3) Document subjective and objective test methodologies for assessing the capturing, coding, transmission and rendering blocks of immersive audio systems.
4) Document the diverse considerations for the testing of immersive audio systems such as:
a) Impacts of audio rendering systems
b) Impacts of Head Related Transfer Functions (HRTFs)
c) Impacts of simultaneous video presentation to the perceived audio quality / psychophysical response
d) Use of naïve and/or experienced listeners
e) Appropriate statistical methods for data analysis and reporting
f) Repeatability and reproducibility
|
26.881
|
Forward Error Correction (FEC) for Mission Critical Services
|
TR
|
15.0.0
|
S4
|
https://www.3gpp.org/ftp/Specs/archive/26_series/26.881/26881-f00.zip
|
The objective of the present document is to document the progress of the study item to investigate and recommend an FEC scheme for MCVideo that can be utilized equally by the two FEC procedures specified in 3GPP TS 23.280 [7]. The study will also consider whether the same or a similar scheme may be utilized for other MC services over MBMS (e.g. MCData – file download, or MCPTT group communications). The use of FEC is within the context of the MC services common functional architecture as explained in subclause 5.2.6 of 3GPP TS 23.280 [7]. This study item will build upon the existing stage-2 application architecture for MC services as defined in 3GPP TS 23.280 [7], 3GPP TS 23.281 [8], 3GPP TS 23.282 [9], and 3GPP TS 23.379 [10].
|
28.800
|
Study on management and orchestration architecture of next generation networks and services
|
TR
|
15.0.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/28_series/28.800/28800-f00.zip
|
The present document investigates and makes recommendations on management and orchestration architecture of next generation networks and services which include:
- The terminology associated with management and orchestration of next generation networks and services.
- The use cases on the management and orchestration architecture from the output of other next generation management functional studies (e.g. management and orchestration of network slicing, management of next generation features, service management and orchestration, etc.).
- The use cases that may impact the management and orchestration architecture which are not addressed by functional studies.
- The management and orchestration architecture to support network operational features such as real-time, on demand, automation etc. as evolution from LTE management.
- The management and orchestration architecture to support vertical applications (e.g. management architecture support to the V2X, critical communications etc.) in the next generation network based on the other management functional studies.
- The management and orchestration architecture to support the scenario in which the applications are hosted close to the access network based on the other management functional studies.
- The management and orchestration architecture to support management and orchestration aspect of E2E user services in the next generation network based on the other management functional studies.
- Investigate whether the existing 3GPP management architecture can be reused, or needs to be enhanced.
- Take into consideration the outcome on next generation network architecture and study the potential management and orchestration architecture aspects of the end to end architecture.
|
28.801
|
Telecommunication management;Study on management and orchestration of network slicing for next generation network
|
TR
|
15.1.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/28_series/28.801/28801-f10.zip
|
The present document investigates and makes recommendations on management and orchestration for network slicing on the Network Slice Instance Layer [2] and for non-virtualised NE's also the Resource layer:
1) Use cases and requirements for management and orchestration of network slicing
2) Management and orchestration terminology and concepts for slices. The relationship between network slice management and orchestration concepts developed in the present document and the management and orchestration concepts defined by ETSI NFV.
3) Management of network function sharing in the context of network slicing (e.g. network function sharing support, and lifecycle management functions of the mobile network resources for network slices).
4) Impacts to management when a slice instance is shared between multiple parties (e.g. multiple partners and multiple domains etc.) based on the slice sharing, see reference 3GPP TR 23.799 [2].
5) Isolation of management data between different parties within a slice instance if needed.
6) Impacts derived from Management of 3GPP Network Slices on the ETSI MANO architecture and procedures.
7) Automation of management and orchestration of network slice instances and the related policy configurations.
8) Management and orchestration mechanisms to support the isolation/separation of mobile network resources used by different network slice instances and the corresponding configuration of isolation/separation.
9) Solution for management and orchestration of network slicing and how it affects the specifications (e.g. Interface IRPs, Network Resource models and trace specifications).
Furthermore, the 3GPP role for Service Instance Layer has been investigated.
The Resource layer for VNFs is excluded from the present document.
|
28.802
|
Telecommunication management;Study on management aspects of next generation network architecture and features
|
TR
|
15.0.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/28_series/28.802/28802-f00.zip
|
The present document studies the management aspects of next generation network architecture and features.
The study includes:
- the use cases for management aspects of the next generation network in terms of network architecture and high level features;
- the potential impact of the next generation network architecture and high level features to the functional blocks of 3GPP management system;
- the location and role of management functionality to support next generation network architecture;
- the potential management related requirements for the next generation network in terms of network architecture and high level features;
- the possible solutions to support the management requirements brought from the end to end next generation network architecture;
- the possible solutions of management aspects to support the key features of the next generation network.
The study also makes conclusions on the preferred solution(s), and provides recommendations based on the conclusions of the study.
|
31.801
|
Technical requirements for the secure platform for 3GPP applications
|
TR
|
15.1.0
|
C6
|
https://www.3gpp.org/ftp/Specs/archive/31_series/31.801/31801-f10.zip
|
The present document studies and evaluates the technical requirements for a secure platform hosting 3GPP applications up to Release 14. It is the intention to feed the result of the work to ETSI TC SCP, so that it can be taken into account during the definition of their use cases and requirements for this new secure platform.
Requirements for 5G, i.e. Release 15 will be defined during the work on 5G and summarized in other specifications.
|
31.890
|
CT WG6 aspects of 5G System Phase 1
|
TR
|
15.2.0
|
C6
|
https://www.3gpp.org/ftp/Specs/archive/31_series/31.890/31890-f20.zip
|
The present document discusses and describes the CT6 aspects of the 5G System phase 1. One objective of the document is to describe the impact of decisions taken in other 3GPP groups on the existing specifications maintained by CT6.
The present document is intended as a placeholder for CT6 material until it stabilises sufficiently to be moved to appropriate 3GPP technical specifications.
|
32.848
|
Study on Volume based charging aspects for Voice Over LTE (VoLTE)
|
TR
|
15.0.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/32_series/32.848/32848-f00.zip
|
The present document studies requirements, architecture, and possible functional enhancements of volume based charging for VoLTE.
The study investigates how to associate the identifiers of caller and callee with volume based charging for VoLTE.
The study investigates how to support the volume based charging for different IMS based services (e.g. CAT and voice calls, 3PTY conference, Call waiting, Call Hold).
The study investigates how to collect accounting information to determine the status of VoLTE service delivery in PS offline charging.
The complete or partial conclusions of this study form the basis for the normative work and/or for any further study.
|
32.856
|
Study on Operations, Administration and Maintenance (OAM) support for assessment of energy efficiency in mobile access networks
|
TR
|
15.0.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/32_series/32.856/32856-f00.zip
|
The present document reports how 3GPP OAM specifications can provide support for the assessment of energy efficiency in radio access networks as defined by ETSI ES 203 228 [2], thanks to measuring both network performance and energy consumption. It provides a gap analysis between ETSI ES 203 228 [2] and 3GPP OAM Technical Specifications, and provides recommendations towards ETSI ES 203 228 [2] compliance, including suggestions for further 3GPP specification enhancements. It also provides an analysis of how ETSI ES 202 336-12 [31] architecture, interfaces and information model may fit with the 3GPP management reference model defined in 3GPP TS 32.101 [32] and 3GPP IRPs, identifies potential use cases and requirements and studies potential solutions for interfaces that are in the scope of 3GPP. Finally, it provides recommendations for normative work.
|
32.857
|
Study on management aspects of selected Internet of Things (IoT)-related features
|
TR
|
15.0.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/32_series/32.857/32857-f00.zip
|
This document investigates management aspects of LTE IoT related functionalities such as eMTC and NB-IoT RAN Features, to identify functionalities that should be added to the existing 3GPP OAM specifications. The document outlines basic use cases, sets potential requirements and suggests potential solutions.
|
32.864
|
Telecommunication management;Study on management aspects of virtualized network functions that are part of the New Radio (NR)
|
TR
|
15.0.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/32_series/32.864/32864-f00.zip
|
The present document studies on the management of virtualized network functions that are part of the NR that includes the following aspects:
- The management use cases and requirements for the virtualized network functions that are part of the NR, and their relations with non-virtualized part of the RAN and the core networks.
- Analysis to identify the gaps for the use cases and requirements that cannot be supported by the management solutions of mobile networks that include virtualized core network functions (EPC or IMS).
- The potential solutions for the gaps identified above.
- Recommendations on the next step.
|
32.865
|
Study on Operations, Administration and Maintenance (OAM) aspects of Self-Organizing Network (SON) for Active Antenna System (AAS) based deployments
|
TR
|
15.0.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/32_series/32.865/32865-f00.zip
|
The present document studies the OAM aspects of SON (Self-Organizing Network) for AAS (Active Antenna Systems) based deployments in LTE.
The study includes use cases, potential requirements and possible solutions of OAM aspects of SON for AAS-based deployments in LTE, for both OAM centralized architecture and eNB distributed architecture with OAM supervision.
The study also makes conclusions on the preferred solution(s), and provides recommendations based on the conclusions of the study.
|
32.866
|
Telecommunication management;Study on a REST(REpresentational State Transfer)-ful HTTP-based Solution Set (SS)
|
TR
|
15.0.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/32_series/32.866/32866-f00.zip
|
The present document evaluates REST, HTTP and JSON for their applicability to design and implement management interfaces. It provides also best practices and guidelines for designing management interfaces with REST, HTTP and JSON.
|
32.867
|
Telecommunication management;Study on management enhancement of Control and User Plane Split (CUPS) of Evolved Packet Core (EPC) nodes
|
TR
|
15.1.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/32_series/32.867/32867-f10.zip
| |
32.868
|
Telecommunication management;Study on Operations, Administration and Maintenance (OAM) aspects of Long Term Evolution (LTE) and Wireless LAN (WLAN) integration
|
TR
|
15.0.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/32_series/32.868/32868-f00.zip
|
The present document studies the following OAM aspects of LWA (for both co-located and non-co-located deployment scenarios) and LWIP, based on the solutions defined by 3GPP RAN WGs:
- the WLAN related information needs to be configured to the eNB to support LWA and LWIP.
- how the 3GPP management system manages the WT function for the case that the WT function is implemented in a non-3GPP NE (e.g., WLAN AC, WLAN AP).
- the management model for WT for co-located and non-co-located LWA deployment scenarios.
- the performance measurements to monitor the LWA and LWIP.
- the FM (Fault Management) of LWA and LWIP.
The study also makes conclusions on the potential solution(s), and provides recommendations for the normative work based on the conclusions of the study.
|
32.869
|
Telecommunication management; Charging management; Study on Overload Control for Diameter Charging Applications
|
TR
|
15.0.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/32_series/32.869/32869-f00.zip
|
The present document studies the overload control mechanisms for Rc, Re, Rf and Ro interfaces based on the conclusion of TR 29.809 [212].
For 3GPP Diameter Charging interfaces, the Diameter overload control mechanism are based on the IETF Draft "Diameter Overload Indication Conveyance" that defines the AVPs for the transport of overload information of Diameter application as well as the basic behaviour of the Diameter endpoints receiving this information.
The IETF RFC 7683 [404] is considered as the reference of the present document and not the IETF Draft draft-ietf-dime-ovli-02 referenced by TR 29.809 [212].
As per TR 29.809 [212], the following conclusions apply and are not studied in the present document:
- How a reporting node determines it is entering into an overload condition is implementation dependent.
- How a reporting node determines the contents value of the overload report (i.e. OC-OLR AVP) is implementation dependent.
- How a reacting node achieves traffic reduction (i.e. selection of impacted sessions) is implementation dependent.
The following issues are covered by the present document:
- Application and/or modification of current failure handling functionality defined in TS 32.299 [50] for Diameter online and offline charging in the Charging Trigger Function when reacting to overload control indication from the OCS or CDF, respectively.
|
32.870
|
Telecommunication management;Charging management;Study on forward compatibility for 3GPP Diameter charging applications
|
TR
|
15.0.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/32_series/32.870/32870-f00.zip
|
The present document studies forward compatibility for 3GPP Charging Applications over Rf and Ro Reference Points, specified by using IETF Diameter protocol.
In particular, it is investigated how to conform with TR 29.819 [413] conclusion on Diameter extensibility rules, per following clause 5.3.1.4 statement:
"For 3GPP Diameter Accounting application using the Diameter Base Protocol Accounting (application Id =3), such as specified in the 3GPP TS 32.299 [16], further studies are required to evaluate how AVPs can be added to existing commands with the M-bit cleared to avoid backward compatible issues. "
This document is independent of whether IETF RFC 3588 [401] or IETF RFC 6733 [412] is referred to as the Diameter Base protocol for Rf and Ro. Update from IETF RFC 3588 [401] to IETF RFC 6733 [412] can be decided prior to any conclusion from this study.
|
32.871
|
Study on policy management for mobile networks based on Network Function Virtualization (NFV) scenarios
|
TR
|
15.0.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/32_series/32.871/32871-f00.zip
|
From mobile service and network function management perspective, the present document studies the end-to-end network policy management for mobile network based on NFV scenarios:
- Study the concepts and classification of the policy management for mobile networks based on the NFV scenarios, analyse and classify the potential policy management scenarios.
- Identify the use cases and requirements of policy management for mobile networks based on the NFV scenario.
- Study the potential logical roles of the policy management for mobile networks based on the NFV scenarios.
- Identify the impacts of logical architecture and the potential requirements to 3GPP management system. Analyse the existing 3GPP Management reference model, interfaces, protocols and procedures to determine what can be re-used, adapted or extended. Propose enhancements or extensions to the 3GPP solutions, if an impact is foreseen.
- Identify the impacts to NFV-MANO framework from the 3GPP service perspective.
- Provide recommendations to the standardization of policy management for mobile networks based on the NFV scenario.
The study will focus on the policy solutions which are related to NFV scenarios and will take into account of the outcome of SA5 existing specifications and the outcome produced by ETSI. The study will investigate whether the existing specification can be reused or not.
|
32.880
|
Telecommunication management;Study on implementation for the partitioning of Itf-N
|
TR
|
15.0.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/32_series/32.880/32880-f00.zip
|
The present document examines the IRP Information Service (IS) of Itf-N from existing TS 32-series specifications and identifies one subset of IRP functionality according to the IRP requirements in TR 32.861[2], also studies diverse solution sets and compares them between each other on efficiency and complexity. Finally, this document gives a suggestion of one or more solution set(s) for above identified IS subset.
|
32.899
|
Telecommunication management; Charging management;Study on charging aspects of 5G system architecture phase 1
|
TR
|
15.1.0
|
S5
|
https://www.3gpp.org/ftp/Specs/archive/32_series/32.899/32899-f10.zip
|
The present document studies the charging architecture, principles and functionalities for a 5G System Phase 1 specified in TS 23.501 [201] and TS 23.502 [202], based on the TR 23.799 [200] conclusions.
The stage 1 requirements from TS 22.115 [101] and TS 22.261 [102] are also input for this study.
The charging architecture and functionalities are studied for the set of features and capabilities supported by the 5G System Phase 1, and for interworking scenarios between the 5G System and existing systems as well.
Evolution of charging mechanisms and charging models to support the Third Parties are investigated.
The study provides a prioritisation between the different features, if evaluated as necessary, to allow a potential phased approach for the normative work.
|
33.811
|
Study on security aspects of 5G network slicing management
|
TR
|
15.0.0
|
S3
|
https://www.3gpp.org/ftp/Specs/archive/33_series/33.811/33811-f00.zip
|
The present document is a study on the threats, potential security requirements and solutions for the features of 5G network slicing management as described in TS 28.530 [2] and TS 28.531[3].
|
33.842
|
Study on Lawful Interception (LI) service in 5G
|
TR
|
0.0.0
|
S3
|
https://www.3gpp.org/ftp/Specs/archive/33_series/33.842/33842-000.zip
|
The present document is a study based on the output (both studies and normative specifications) from other 3GPP groups such as those for 5G Phase 1 as well as issues which arise out of regulatory LI requirements as well LI service specific issues such as those arising from national regulations. Potential solutions will be examined along with considerations of the trade-offs between the solutions will be described. These solutions can include changes to the LI service, architecture and/or stage 3 along.
It is expected that this TR will address stage 1, 2 & 3 aspects, and the completion of each stage’s section will correspond at least to the overall Release 15 schedule with the corresponding start of SA 3 LI stage normative work.
|
33.843
|
Study on security architecture enhancements to Proximity Services (ProSe) User Equipment (UE)-to-network relay
|
TR
|
15.1.0
|
S3
|
https://www.3gpp.org/ftp/Specs/archive/33_series/33.843/33843-f10.zip
|
The present document contains a study of the security aspects of enhancements to ProSe UE-to-Network Relay. Its objective is to identify threats when an Evolved ProSe Remote UE with UICC connects to the network via an Evolved ProSe UE-to-Network Relay. The potential requirements are identified based on threat and the potential solutions are studied. Evaluations of solutions are captured and the conclusion forms the basis for the potential normative work.
|
33.880
|
Study on mission critical security enhancements
|
TR
|
15.1.0
|
S3
|
https://www.3gpp.org/ftp/Specs/archive/33_series/33.880/33880-f10.zip
|
This document contains a study of the security aspects of the Mission-Critical service. It enhances the security solutions defined for MCPTT in TS 33.179 [3] to support the common functional architecture (MC_ARCH), enhancements to MCPTT (eMCPTT), data services (MCData), video services (MCVideo) and migration and interconnect services with partner systems (MCSMI).
In each case, this study includes an analysis of the threats to the service, the security requirements to mitigate those threats and an evaluation of possible technical solutions designed to meet the security requirements of the service.
Stage 2 aspects of the mission critical services are defined within TS 23.179 [2], TS 23.280 [8], TS 23.281 [9], TS 23.282 [10], TR 23.781 [11], TR 23.782 [12] and TS 33.179 [3]. Stage 1 requirements are defined in TS 22.179 [4], TS 22.280 [5], TS 22.281 [6] and TS 22.282 [7].
|
34.108
|
Common test environments for User Equipment (UE); Conformance testing
|
TS
|
15.2.0
|
R5
|
https://www.3gpp.org/ftp/Specs/archive/34_series/34.108/34108-f20.zip
|
The present document contains definitions of reference conditions and test signals, default parameters, reference radio bearer configurations used in radio bearer interoperability testing, common radio bearer configurations for other test purposes, common requirements for test equipment and generic set-up procedures for use in UE conformance tests.
|
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